static void Main(string[] args)
{
string InputFileName = args[0];
string Outputfolder = args[1];
int OutputCount = int.Parse(args[2]);
StreamReader reader = new StreamReader(InputFileName);
//Count number of lines
Console.WriteLine("Compute Lines..");
int count = 0;
while (!reader.EndOfStream)
{
reader.ReadLine();
count++;
}
Console.WriteLine("Total lines: " + count);
int chunkSize = count / OutputCount;
reader.DiscardBufferedData();
for (int i = 0; i < OutputCount && !reader.EndOfStream ; ++i)
{
Console.WriteLine("Writing {0} document...", i);
StreamWriter writer = new StreamWriter(Outputfolder + "\\out" + i + ".tsv");
for(int j = chunkSize * i; j < chunkSize*(i + 1) && !reader.EndOfStream; j++)
{
writer.WriteLine(reader.ReadLine());
}
writer.Flush();
}
Console.Read();
}
/// <summary>
/// Return last line of a text file
/// </summary>
/// <param name="filePath">File path</param>
/// <returns></returns>
public static string GetLastLineOfFile(string filePath)
{
if (string.IsNullOrEmpty(filePath))
throw new ArgumentNullException("filePath");
if (!FileSystem.File.Exists(filePath))
throw new FileNotFoundException("File not found: " + filePath);
using (var sr = new StreamReader(filePath))
{
sr.BaseStream.Seek(0, SeekOrigin.End);
long pos = -1;
while (sr.BaseStream.Length + pos > 0)
{
sr.BaseStream.Seek(pos, SeekOrigin.End);
var c = sr.Read();
sr.DiscardBufferedData();
if (c == Convert.ToInt32('\n'))
{
sr.BaseStream.Seek(pos + 1, SeekOrigin.End);
return sr.ReadToEnd();
}
--pos;
}
}
return null;
}
//analyze file and returns an array with all lines
private string[] analyzeFile()
{
int counter = 0;
string line;
System.IO.StreamReader file = new System.IO.StreamReader(filePath.Text);
var count = File.ReadLines(filePath.Text).Count();
string[] dataEntries = new string[count];
file.DiscardBufferedData();
file.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
file.BaseStream.Position = 0;
//save all data entries to the array dataEntires
while ((line = file.ReadLine()) != null)
{
dataEntries[counter] = line;
counter++;
}
file.Close();
return dataEntries;
}
public EdiStream(Stream ediStream)
{
_streamReader = new StreamReader(ediStream);
_interchangeContext = new InterchangeContext(_streamReader);
ediStream.Position = 0;
_streamReader.DiscardBufferedData();
}
public string BuildQuery(string WordListFile, int MaxWords)
{
string Query = null;
FileStream FS = new FileStream(WordListFile, FileMode.Open, FileAccess.Read, FileShare.Read);
StreamReader SR = new StreamReader(FS);
string text = SR.ReadToEnd();
Regex RE = new Regex("\n", RegexOptions.Multiline);
MatchCollection matches = RE.Matches(text);
int numSearchTerms = random.Next(1, MaxWords);
for (int i = 0; i < numSearchTerms; i++)
{
string temp = null;
SR.DiscardBufferedData();
SR.BaseStream.Position = random.Next(0, (int)SR.BaseStream.Length);
temp = SR.ReadLine();
temp = SR.ReadLine();
Query += temp + " ";
}
SR.Close();
FS.Close();
return Query.Trim();
}
private List <string> ReadColumns(ref System.IO.StreamReader file, string FirstLine)
{
List <string> col = new List <string>();
string line = string.Empty;
string[] elements;
int Index = 0;
while ((line = file.ReadLine()) != null)
{
if ((line.Equals(FirstLine)))
{
continue;
}
if ((line.Equals(Environment.NewLine)) || (line.Equals(string.Empty)))
{
break;
}
elements = line.Split('=');
col.Add(elements[0].Trim());
Index++;
}
file.BaseStream.Position = 0;
file.DiscardBufferedData();
return(col);
}
public void LogFileMaxSize( )
{
const int MaxSize = 32767;
// Fill the log file
const string alpabet = "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
using ( StreamWriter writer = File.CreateText( LogFilePath ) )
{
for ( int i = 0; i < MaxSize / alpabet.Length; ++i )
{
writer.Write( alpabet );
}
writer.Write( alpabet.Substring( 0, MaxSize % alpabet.Length ) );
}
const string logStr = "Hello World";
TestLogger logger = new TestLogger();
logger.Log( logStr );
using ( FileStream stream = File.OpenRead( LogFilePath ) )
{
Assert.AreEqual( MaxSize, stream.Length );
// Did we shift the existing contents?
StreamReader reader = new StreamReader( stream );
Assert.AreEqual( alpabet[logStr.Length], (char) reader.Read() );
// Did we append the new log?
stream.Position = MaxSize - logStr.Length;
reader.DiscardBufferedData();
Assert.AreEqual( logStr, reader.ReadToEnd() );
}
}
private static void convertToField(int spaceCount, StringBuilder fieldBuilder, StreamReader reader, ClassTemplate meta, int language_type)
{
if (fieldBuilder == null || reader == null || meta == null)
return;
//文件流回到开始的位置
reader.DiscardBufferedData();
reader.BaseStream.Seek(0, SeekOrigin.Begin);
reader.BaseStream.Position = 0;
string line;
while ((line = reader.ReadLine()) != null)
{
line = findAndReplace(line, "%field_type%", meta.Field_type);
line = findAndReplace(line, "%field_name%", meta.Field_name);
line = findAndReplace(line, "%Field_name%", meta.Upper_field_name);
if (line.IndexOf("%annotation%")!=-1&&string.IsNullOrEmpty(meta.Annotation))
{
continue;
}
line = findAndReplace(line, "%annotation%", meta.Annotation);
fieldBuilder.Append(getDesignatedSpace(spaceCount)).Append(line).Append("\r\n");
}
}
} // end closeFile
// Rewind the input file
public void rewindFile()
{
recordReadCount = 0;
currentFileSR = new System.IO.StreamReader(currentFilePath);
currentFileSR.DiscardBufferedData();
currentFileSR.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
} // end rewindFile
public EdiStream(Stream ediStream, string definitionsAssemblyName = null)
{
_streamReader = new StreamReader(ediStream);
_interchangeContext = new InterchangeContext(_streamReader, definitionsAssemblyName);
ediStream.Position = 0;
_streamReader.DiscardBufferedData();
}
private async System.Threading.Tasks.Task GetDIVersions()
{
string selectedItem = DriveBox.SelectedItem.ToString();
if (File.Exists(selectedItem + "CURRENT.UF2"))
{
StreamReader currentUF2 = new System.IO.StreamReader(selectedItem + "CURRENT.UF2");
string lineFW;
int x = 0;
while ((lineFW = currentUF2.ReadLine()) != null)
{
if (lineFW.Contains("DI_FW_"))
{
var regex = new Regex(@"DI_FW_\d*\.\d*");
string version = (regex.Match(lineFW).ToString()).Replace("DI_FW_", "");
FirmwareVersionLabel.Text = "v" + version;
OutputBox.Content += "\nFound firmware version on DragonInjector (" + selectedItem.Replace("\\", "") + "): v" + version;
OutputBox.ScrollToBottom();
x++;
}
}
if (x < 1)
{
FirmwareVersionLabel.Text = "Custom";
}
currentUF2.DiscardBufferedData();
currentUF2.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
string lineBL;
int y = 0;
while ((lineBL = currentUF2.ReadLine()) != null)
{
if (lineBL.Contains("DI_BL_"))
{
var regex = new Regex(@"DI_BL_\d*\.\d*");
string version = (regex.Match(lineBL).ToString()).Replace("DI_BL_", "");
BootloaderVersionLabel.Text = "v" + version;
OutputBox.Content += "\nFound bootloader version on DragonInjector (" + selectedItem.Replace("\\", "") + "): v" + version;
OutputBox.ScrollToBottom();
y++;
}
}
if (y < 1)
{
BootloaderVersionLabel.Text = "Custom";
}
currentUF2.Dispose();
}
else
{
FirmwareVersionLabel.Text = "UNKNOWN";
OutputBox.Content += "\n!Couldn't find firmware version on DragonInjector";
OutputBox.ScrollToBottom();
BootloaderVersionLabel.Text = "UNKNOWN";
OutputBox.Content += "\n!Couldn't find bootloader version on DragonInjector";
OutputBox.ScrollToBottom();
}
}
public TilesetTableTest()
{
var tilesetTableMemoryStream = FileStreams.TilesetTableStream();
var tilesetTableStreamReader = new StreamReader(tilesetTableMemoryStream);
tilesetTableStreamReader.DiscardBufferedData();
tilesetTableMemoryStream.Position = 0;
var tilesetTable = new TilesetTable(null, tilesetTableStreamReader);
}
public Board()
{
NumberOfSteps = 0;
Rand = new Random();
try
{
using (var board = new StreamReader("Board.txt"))
{
var i = 0;
var j = 0;
while (board.EndOfStream != true)
{
board.ReadLine();
Boardx++;
}
board.DiscardBufferedData();
board.BaseStream.Position = 0;
BoardChars = new char[Boardx][];
while (board.EndOfStream != true && i < Boardx)
{
var line = board.ReadLine();
if (line != null)
{
var readLine = line.Trim('\uFEFF');
{
var array = readLine.ToCharArray();
ArrayLength = readLine.Length;
BoardChars[i] = new char[ArrayLength + 1];
while (j < ArrayLength)
{
BoardChars[i][j] = array[j];
BoardChars[i][j + 1] = '\n';
//Write(BoardChars[i][j]);
j++;
}
//WriteLine();
}
}
j = 0;
i++;
}
DisplayBoard();
}
//WriteLine("\nPress F12 to quit.");
}
catch (FileNotFoundException e)
{
WriteLine("Attention ! Fichier : " + e.Source + " introuvable !");
}
catch (DirectoryNotFoundException e)
{
WriteLine("Attention ! Dossier : " + e.Source + " introuvable !");
}
}
public void restoreConfigMinMaxGetValuesCsharp()
{
if (restore_filename != null)
{
// fp_restore rewinded in finding max_index
int idx;
double fmin, fmax;
string restore_line;
if (fp_restore.Read() == 'y')
{
fp_restore.ReadLine(); // pass the '\n' after 'y'
restore_line = fp_restore.ReadLine();
string [] restore_line_ar = restore_line.Split(',');
y_lower = double.Parse(restore_line_ar[0]);
y_upper = double.Parse(restore_line_ar[1]);
restore_line = fp_restore.ReadLine();
restore_line_ar = restore_line.Split(',');
y_min = double.Parse(restore_line_ar[0]);
y_max = double.Parse(restore_line_ar[1]);
y_scaling = true;
}
else
{
fp_restore.BaseStream.Position = 0;
fp_restore.DiscardBufferedData();
}
if (fp_restore.Read() == 'x')
{
fp_restore.ReadLine(); // pass the '\n' after 'x'
restore_line = fp_restore.ReadLine();
string[] restore_line_ar = restore_line.Split(',');
lower = double.Parse(restore_line_ar[0]);
upper = double.Parse(restore_line_ar[1]);
restore_line = null;
restore_line_ar = null;
while ((restore_line = fp_restore.ReadLine()) != null)
{
restore_line_ar = restore_line.Split(',');
idx = int.Parse(restore_line_ar[0]);
fmin = double.Parse(restore_line_ar[1]);
fmax = double.Parse(restore_line_ar[2]);
if (idx <= max_index) // this will ignore index 204801 if the max is 204800
{
feature_min[idx] = fmin;
feature_max[idx] = fmax;
}
}
}
fp_restore.Close();
}
}
public static string LoadTextResource(Assembly assembly, string sResourceName)
{
string sReturn = "";
using (var sr = new StreamReader(assembly.GetManifestResourceStream(sResourceName)))
{
sReturn = sr.ReadToEnd();
sr.DiscardBufferedData();
sr.Close();
}
return sReturn;
}
private void Reset(object sender, RoutedEventArgs e)
{
streamReader.DiscardBufferedData();
streamReader.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
myCanvas2.Children.Clear();
for (int i = 0; i < 10; i++)
{
word[i] = null;
line = null;
}
}
public static SeismicBitmapInfo[] getBitmapsInfoFromDirectory()
{
var applicationDirectory = System.Web.Hosting.HostingEnvironment.ApplicationPhysicalPath + "Resources\\";
//will return a list of seismic data
string[] jpgFiles = Directory.GetFiles(applicationDirectory, imageJPGExtension);
string[] dataFiles = Directory.GetFiles(applicationDirectory, dataExtension);
if (dataFiles.Length != 1 || jpgFiles.Length == 0)
return null;
StreamReader dataReader = new StreamReader(dataFiles[0]);
int lineCount = 0;
while (dataReader.ReadLine() != null)
lineCount++;
dataReader.BaseStream.Position = 0;
dataReader.DiscardBufferedData();
if (lineCount % 3 != 0)
return null;//The number of lines must be a multiple of 3, because 1 piece of "data" requires 3 lines, line name, 2 lat/long points
int numberOfSeismicImages = lineCount / 3;
if (numberOfSeismicImages != jpgFiles.Length)
return null;
List<SeismicBitmapInfo> bitmapInfoCollection = new List<SeismicBitmapInfo>();
string[] dataStrings = new string[3];
SeismicBitmapInfo newinfo;
for (int i = 0; i < numberOfSeismicImages; i++)
{
for (int j = 0; j < 3; j++)
{
dataStrings[j] = dataReader.ReadLine();
}
string lineFileName = getLineFileFromString(applicationDirectory, dataStrings[0]);
if (!jpgFiles.Contains(lineFileName))
continue;//You only create and populate info for lines that both exist in the data file, and have corresponding image file
newinfo = new SeismicBitmapInfo();
newinfo.line = new LineSegment(getLatLongPointFromString(dataStrings[1]), getLatLongPointFromString(dataStrings[2]));
newinfo.bitmapName = lineFileName;
newinfo.bitmapImage = new BitmapImage(new Uri(lineFileName, UriKind.Relative));
newinfo.lineNumber = getLineNumberFromString(dataStrings[0]);
//bitmapInfoCollection.Add(newinfo);
insertSeismicInfoIntoList(bitmapInfoCollection, newinfo);
}
//bitmapInfoCollection.Reverse();
return bitmapInfoCollection.ToArray();
}
/// <summary>
/// Creates a new Level with this Level's starting settings.
/// Returns null if there was a problem creating the Level.
/// </summary>
/// <returns>A Level with this Level's starting settings or null.</returns>
public Level RestartLevel()
{
Level lvl;
//if this is not a replay
if (updateFile == null)
{
//get the same number Level
lvl = GetLevel(levelNumber);
if (lvl != null)
{
//create the Level using the same settings
lvl.Create(thePlayers.Length, theDifficulty, randomSeed, thePvp);
//copy the Item's the Players had at the begining of the Level
for (int i = 0; i < thePlayers.Length; i++)
{
for (int j = 0; j < thePlayers[i].items.Length; j++)
{
if (initialPlayers[i].items[j] != null)
{
initialPlayers[i].items[j].Pickup(lvl.thePlayers[i], j);
lvl.theNonInteractives.AddLast(lvl.thePlayers[i].items[j]);
theNonInteractives.Remove(lvl.thePlayers[i].items[j]);
}
}
lvl.initialPlayers[i] = lvl.thePlayers[i].Clone();
}
//destroy this Level
ClearLevel();
Destroy(this.gameObject);
}
}
//if this is a replay
else
{
//set the replay file to the begining and reload the replay
updateFile.DiscardBufferedData();
updateFile.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
lvl = LoadReplay(updateFile);
//if the replay was loaded successfuly, then destroy this Level
if (lvl != null)
{
updateFile = null;
ClearLevel();
Destroy(this.gameObject);
}
}
return(lvl);
}
private string ReadSparClass(ref System.IO.StreamReader file)
{
string line = string.Empty;
if ((line = file.ReadLine()) != null)
{
file.BaseStream.Position = 0;
file.DiscardBufferedData();
return(line);
}
return(line);
}
/*
* transmit log file, this is called when user clicks on the transfer log file button
* it reads the file selected and starts transmitting the log file with the command sendNextLogFile
*/
private void trLogFile(object sender, EventArgs e)
{
if (readFile == null)
{
txtGatewayLog.Text += "No file selected!\n";
return;
}
readFile.DiscardBufferedData();
readFile.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
sendingLog = true;
readFile.ReadLine();
sendNextLogFile();
}
static void Main(string[] args)
{
StreamReader inputFile;
StreamReader tranInputFile;
char[] code = new char[3];
string tranCode;
string tCode;
string[] fileNameSuffix = { "1", "2", "3" };
StreamWriter logSession = new StreamWriter("./../../../LogSession.txt",true);
for (int i = 0; i < fileNameSuffix.Length; i++)
{
inputFile = new StreamReader("./../../../" + "MainData" + fileNameSuffix[i] + ".txt");
tranInputFile = new StreamReader("./../../../" + "TransData" + fileNameSuffix[i] + ".txt");
CodeIndex index = new CodeIndex(fileNameSuffix[i]);
logSession.WriteLine("==============");
logSession.WriteLine("PROCESSING TransData " + fileNameSuffix[i].ToString());
while (!tranInputFile.EndOfStream)
{
string[] tranLine = tranInputFile.ReadLine().Split(' ');
tranCode = tranLine[0]; //QC
tCode = (tranLine[1]); //***
short DRP = index.QueryByCode(tCode);
if (DRP == -1)
{
}
else
{
inputFile.DiscardBufferedData();
inputFile.BaseStream.Seek(25 * (DRP - 1), SeekOrigin.Begin);
logSession.WriteLine(tranCode + " " + tCode);
logSession.WriteLine(">> "+ inputFile.ReadLine());
logSession.WriteLine("[# of nodes read: " + index.NodeCount.ToString() + "]");
}
}
index.FinishUp();
inputFile.Close();
tranInputFile.Close();
}
logSession.Close();
}
static void mostrarTokens(TinyLexer lexer, System.IO.StreamReader input)
{
Console.WriteLine("####### Inicio del análisis léxico #######");
Symbol symbol;
while ((symbol = lexer.next_token()).sym != TokenDef.EOF)
{
Utilidades.dumpToken(System.Console.Out, symbol);
}
input.BaseStream.Position = 0;
input.DiscardBufferedData();
Console.WriteLine("####### Fin del análisis léxico #######");
}
static String ReadOutput(StreamReader reader, bool print = true)
{
StringBuilder str = new StringBuilder();
reader.DiscardBufferedData();
while (reader.Peek() != -1)
{
str.Append((char)reader.Read());
}
str.Append("\n");
if(print)
Console.WriteLine("engine << " + str.ToString());
return str.ToString().Trim();
}
public IEnumerable<string> ReadLines(FileInfo sourceFile)
{
using (var reader = new StreamReader(sourceFile.FullName))
{
while (true)
{
if (reader.EndOfStream)
{
reader.BaseStream.Position = 0;
reader.DiscardBufferedData();
}
yield return reader.ReadLine();
}
}
}
private string GetJsonPart(Stream stream)
{
stream.Seek(JsonBegin, SeekOrigin.Begin);
const int searchStringLength = 6;
using (var streamReader = new StreamReader(stream))
{
var buffer = new char[searchStringLength];
int charsCount = 0;
bool jsonEndIsFound = false;
while (!streamReader.EndOfStream)
{
streamReader.ReadBlock(buffer, 0, searchStringLength);
if (new string(buffer).Equals("}}star"))
{
jsonEndIsFound = true;
break;
}
streamReader.BaseStream.Seek(JsonBegin + charsCount, SeekOrigin.Begin);
charsCount++;
streamReader.DiscardBufferedData();
}
if (!jsonEndIsFound)
{
throw new NotSupportedException();
}
stream.Seek(JsonBegin, SeekOrigin.Begin);
var bytesLengths = (charsCount * 2);
var jsonBytes = new byte[bytesLengths];
stream.Read(jsonBytes, 0, bytesLengths);
var str = Encoding.UTF8.GetString(jsonBytes);
return str.Substring(0, str.LastIndexOf("}}star", StringComparison.InvariantCulture) + 2);
}
}
private string FindTo(StreamReader reader, long startPos, long endPos)
{
long pos = FindStringInStream(reader, "<To>", startPos, endPos);
if (pos == -1)
return string.Empty;
reader.BaseStream.Seek(pos, SeekOrigin.Begin);
reader.DiscardBufferedData();
char[] buffer = new char[4096];
int charsRead = reader.ReadBlock(buffer, 0, buffer.Length);
string str = new string(buffer, 0, charsRead);
Match m = Regex.Match(str, @".*?<To>(.*?)(</).*", RegexOptions.IgnoreCase);
if (m != null && m.Success)
{
return m.Groups[1].Value;
}
return string.Empty;
}
protected void InternalParseDumpedFile(string path, string infoSectionName)
{
var infoSection = "[" + infoSectionName + "]\r\n";
var digest = "";
var timeStamp = PcdbFile.InvalidDateTime;
using (var reader = new StreamReader(path, Encoding.Default))
{
var pos = StreamScanner.FindString(reader.BaseStream, reader.CurrentEncoding, infoSection);
if (pos == -1)
return;
reader.DiscardBufferedData();
reader.BaseStream.Seek(pos, SeekOrigin.Begin);
reader.ReadLine();
while (!reader.EndOfStream)
{
if (Cancelled)
break;
var buf = reader.ReadLine();
var entry = IniFile.ExtractKeyValuePair(buf, false);
switch (entry.Key)
{
case "creation_date":
timeStamp = Utils.StrToDateTime(entry.Value, Utils.DateTimePatternCfg);
continue;
case "player_digest":
digest = entry.Value;
if (string.IsNullOrEmpty(digest))
return;
OnFoundData(DatabaseTableId.Hash);
continue;
case "player_name":
{
var name = entry.Value;
if (!string.IsNullOrEmpty(digest))
{
Database.InsertHash(digest);
OnFoundData(DatabaseTableId.Name);
if (!string.IsNullOrEmpty(name))
Database.InsertName(digest, name, timeStamp);
}
return;
}
}
}
}
}
private static void convertToMethod(int spaceCount, StringBuilder methodBuilder, StreamReader reader, ClassTemplate meta)
{
if (methodBuilder == null || reader == null || meta == null)
return;
//文件流回到开始的位置
reader.DiscardBufferedData();
reader.BaseStream.Seek(0, SeekOrigin.Begin);
reader.BaseStream.Position = 0;
string line = reader.ReadLine();
while (line != null)
{
line = findAndReplace(line, "%field_type%", meta.Field_type);
line = findAndReplace(line, "%field_name%", meta.Field_name);
line = findAndReplace(line, "%Field_name%", meta.Upper_field_name);
methodBuilder.Append(getDesignatedSpace(spaceCount)).Append(line).Append("\r\n");
line = reader.ReadLine();
}
}
public static Dictionary <string, string>[] ReadPatientFile(int tam)
{
System.IO.StreamReader sr = new System.IO.StreamReader(GlobalVar.PatientsFile);
String oneLine = sr.ReadLine();
int i = 0;
//recorro el fichero para ver el número de filas (pacientes) que contiene
while (oneLine != null)
{
oneLine = sr.ReadLine();
i++;
}
sr.DiscardBufferedData();
sr.BaseStream.Seek(0, SeekOrigin.Begin);
//con el número de pacientes del fichero, declaramos el tamaño de la matriz de dictionary
Dictionary <string, string>[] data_patient = new Dictionary <string, string> [i];
oneLine = sr.ReadLine();
i = 0;
while (oneLine != null)
{
//MessageBox.Show(oneLine);
string[] fields = oneLine.Split('|');
data_patient[i] = new Dictionary <string, string>();
data_patient[i].Add("task_id", fields[0]);
data_patient[i].Add("admission_id", fields[1]);
data_patient[i].Add("name", fields[2]);
data_patient[i].Add("surname", fields[3]);
data_patient[i].Add("gender", fields[4]);
data_patient[i].Add("bdate", fields[5]);
data_patient[i].Add("cip", fields[6]);
oneLine = sr.ReadLine();
i++;
}
sr.Close();
return(data_patient);
}
private string FindMethod(StreamReader reader, long startPos, long endPos)
{
long pos = FindStringInStream(reader, "Body", startPos, endPos);
if (pos == -1)
return string.Empty;
reader.BaseStream.Seek(pos, SeekOrigin.Begin);
reader.DiscardBufferedData();
char[] buffer = new char[200];
int charsRead = reader.ReadBlock(buffer, 0, buffer.Length);
string str = new string(buffer, 0, charsRead);
Match m = Regex.Match(str, @".*?<(.*?)( |>).*", RegexOptions.IgnoreCase);
if (m != null && m.Success)
{
string method = m.Groups[1].Value;
if (method.Contains(":"))
{
method = method.Split(':')[1];
}
return method;
}
return string.Empty;
}
public void FillBuffer(string filePath, int linesToRead)
{
using (var reader = new StreamReader(filePath))
{
reader.BaseStream.Seek(Math.Max(0, reader.BaseStream.Length - (512 * (linesToRead + 1))), SeekOrigin.Begin);
reader.DiscardBufferedData();
var rawLines = new List<string>();
while (!reader.EndOfStream)
{
rawLines.Add(reader.ReadLine());
}
for (int i = Math.Max(0, rawLines.Count - linesToRead); i < rawLines.Count; i++)
{
var cl = this.Parse(rawLines[i]);
if (cl != null)
{
this.Buffer.Enqueue(cl);
}
}
}
}
public override void CicloPrincipale()
{
int[] bufferCorrente = new int[DimensioneBuffer];
int cursore = 0;
// Leggo le righe una ad una
System.IO.StreamReader file = new System.IO.StreamReader(_percorsoFile);
do
{
string rigaCorrente;
while ((rigaCorrente = file.ReadLine()) != null)
{
if (rigaCorrente != null && rigaCorrente.Length > 0)
{
int valoreCorrente = Convert.ToInt32(rigaCorrente);
bufferCorrente[cursore] = valoreCorrente;
cursore++;
// Se il buffer è stato riempito, lo notifico alla sorgente
if (cursore >= DimensioneBuffer)
{
NotificaDatiDisponibili(bufferCorrente);
cursore = 0;
}
// Sleep per un piccolo periodo
System.Threading.Thread.Sleep(TempoSleep);
}
}
// Ritorno all'inizio del file per ricominciare la lettura
file.DiscardBufferedData();
file.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
} while (!_dovrebbeFermarsi);
file.Close();
}
//find max_index from the restore file
public void restoreCofingFileGetMaxIndexCsharp()
{
fp_restore = null;
if (restore_filename != null)
{
int idx, c;
try
{
fp_restore = new StreamReader(restore_filename);
}
catch (System.Exception e)
{
System.Console.Error.WriteLine("can't open file " + restore_filename);
//Environment.Exit(1);
}
if (fp_restore.Read() == 'y')
{
fp_restore.ReadLine();
fp_restore.ReadLine();
fp_restore.ReadLine();
}
fp_restore.ReadLine();
fp_restore.ReadLine();
string restore_line = null;
while ((restore_line = fp_restore.ReadLine()) != null)
{
idx = int.Parse(restore_line.Split(',')[0]);
max_index = System.Math.Max(max_index, idx);
}
//rewind stream.
fp_restore.BaseStream.Position = 0;
fp_restore.DiscardBufferedData();
}
}
void ReadStrings ()
{
int i;
num_strings = Util.ReadWord (stream);
int[] offsets = new int[num_strings];
for (i = 0; i < num_strings; i ++) {
offsets[i] = Util.ReadWord (stream);
}
StreamReader tr = new StreamReader (stream);
strings = new string[num_strings];
for (i = 0; i < num_strings; i++) {
if (tr.BaseStream.Position != offsets[i]) {
tr.BaseStream.Seek (offsets[i], SeekOrigin.Begin);
tr.DiscardBufferedData ();
}
strings[i] = Util.ReadUntilNull (tr);
}
}
private List <List <string> > ReadRows(ref System.IO.StreamReader file, string FirstLine)
{
List <List <string> > Rows = new List <List <string> >();
List <string> RowData = new List <string>();
string line = string.Empty;
while ((line = file.ReadLine()) != null)
{
string[] elements;
if ((line.Equals(FirstLine)))
{
continue;
}
if ((line.Equals(Environment.NewLine)) || (line.Equals(string.Empty)))
{
Rows.Add(RowData);
RowData = new List <string>();
}
else if (line.Contains('='))
{
elements = line.Split('=');
RowData.Add(elements[1].Trim());
}
else
{
// Do nothing
}
}
if (file.EndOfStream)
{
Rows.Add(RowData);
}
file.BaseStream.Position = 0;
file.DiscardBufferedData();
return(Rows);
}
public override void Initialize()
{
if (String.IsNullOrEmpty(_fileToWatch))
return;
_fileReader =
new StreamReader(new FileStream(_fileToWatch, FileMode.Open, FileAccess.Read, FileShare.ReadWrite));
string path = Path.GetDirectoryName(_fileToWatch);
_filename = Path.GetFileName(_fileToWatch);
_fileWatcher = new FileSystemWatcher(path, _filename)
{NotifyFilter = NotifyFilters.LastWrite | NotifyFilters.Size};
_fileWatcher.Changed += OnFileChanged;
_fileWatcher.EnableRaisingEvents = true;
ComputeFullLoggerName();
if (ReadHeaderFromFile)
AutoConfigureHeader();
if (!_showFromBeginning)
{
_fileReader.BaseStream.Seek(0, SeekOrigin.End);
_fileReader.DiscardBufferedData();
}
}
static void Main(string[] args)
{
if (args.Length > 0)
{
Console.WriteLine(args);
for (int id = 0; id < args.Length; id++)
{
Console.WriteLine(args[id]);
if ((File.Exists(args[id])) && (args[id].Contains(".pit")))
{
// File paths
string homedir = System.IO.Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().Location);
string filename = args[id];
string looklist = homedir + "\\look_list.csv";
string filedest1 = "header.txt";
string filedest2 = "base_look.txt";
string filedest3 = "def_look.txt";
string filedest4 = "trailer.txt";
// Initialisation of global parameters
int lookcnt = 1;
int baselook_id = 0;
bool isheader = true;
bool islook = false;
bool isbaselook = true;
bool istrailer = false;
string[] look_name;
string[] texture_tag;
string[] texture_path;
// Read and store the look list
using (var fs = File.OpenRead(looklist))
using (var reader = new StreamReader(fs))
{
List <string> listA = new List <string>();
List <string> listB = new List <string>();
List <string> listC = new List <string>();
while (!reader.EndOfStream)
{
var line = reader.ReadLine();
var values = line.Split(',');
listA.Add(values[0]);
listB.Add(values[1]);
listC.Add(values[2]);
}
look_name = listA.ToArray();
texture_tag = listB.ToArray();
texture_path = listC.ToArray();
lookcnt = look_name.Length;
}
// Initiate temporary files for the program to dump data
System.IO.StreamWriter filewrite1 = new System.IO.StreamWriter(filedest1);
System.IO.StreamWriter filewrite2 = new System.IO.StreamWriter(filedest2);
System.IO.StreamWriter filewrite3 = new System.IO.StreamWriter(filedest3);
System.IO.StreamWriter filewrite4 = new System.IO.StreamWriter(filedest4);
// Start work!
if (File.Exists(filename))
{
// Our strings that we use to read things from
string line;
string line2;
// Read the file and display it line by line.
System.IO.StreamReader file = new System.IO.StreamReader(filename);
while ((line = file.ReadLine()) != null)
{
// Screw comments!
if (line.StartsWith("#"))
{
continue;
}
// Copy the header lines
while (isheader == true)
{
string linetrim = NoWhiteSpace(line);
// Let's check if we are still in the header range...
if (linetrim.StartsWith("Look {"))
{
// kthnxbai
isheader = false;
islook = true;
filewrite1.Close();
filewrite2.WriteLine(line);
break;
}
// Change source name to identify this tool has processed this file...
if (linetrim.StartsWith("Source"))
{
int denominator = line.IndexOf(":");
filewrite1.WriteLine("{0}: \"PIT Look Addition Batch Tool by MandelSoft\"", line.Substring(0, denominator));
//Console.WriteLine("{0} : \"PIT Look Addition Batch Tool by MandelSoft\"", line.Substring(0, denominator));
}
// Change the look count to match with the input look count of the look list...
else if (linetrim.StartsWith("LookCount"))
{
int denominator = line.IndexOf(":");
filewrite1.WriteLine("{0}: {1}", line.Substring(0, denominator), lookcnt);
//Console.WriteLine("{0} : {1}", line.Substring(0, denominator), lookcnt);
}
// Nothing to see here, just copy-paste...
else
{
filewrite1.WriteLine(line);
//Console.WriteLine(line);
}
line = file.ReadLine();
}
while (islook == true)
{
// We only want the first look, so if we have found it, we continue to the trailer.
if (line.StartsWith("Variant {"))
{
// kthnxbai
islook = false;
istrailer = true;
break;
}
line = file.ReadLine();
if (isbaselook == true)
{
if (line.StartsWith("Look {"))
{
// Well, we have reached the second look. We don't need you!
isbaselook = false;
// kthnxbai, we don't need to write to you anymore.
filewrite2.Close();
// Let's read the file we just created...
System.IO.StreamReader file_baselook = new System.IO.StreamReader(filedest2);
while ((line2 = file_baselook.ReadLine()) != null)
{
string linetrim = NoWhiteSpace(line2);
// So, does this line contain the look name?
if (linetrim.StartsWith("Name"))
{
int denominator = line2.IndexOf(":");
int name_endpoint = line2.Length - (denominator + 3);
string baselookname = line2.Substring(denominator + 2, name_endpoint);
for (int i = 0; i < lookcnt; i++)
{
// Check if this look is in the look list...
if (baselookname.Contains(look_name[i]))
{
// Awesome! Let's write it down!
//Console.WriteLine("Look found: {0}", look_name[i]);
baselook_id = i;
}
}
}
}
// OK, let's generate some new looks!
for (int i = 0; i < lookcnt; i++)
{
// We start to read from the beginning...
file_baselook.BaseStream.Position = 0;
file_baselook.DiscardBufferedData();
// Just continue minding your business until the file ends...
while ((line2 = file_baselook.ReadLine()) != null)
{
string linetrim = NoWhiteSpace(line2);
// Is this the look name?
if (linetrim.StartsWith("Name"))
{
// Let's rename it!
int denominator = line2.IndexOf(":");
filewrite3.WriteLine("{0}: \"{1}\"", line2.Substring(0, denominator), look_name[i]);
//Console.WriteLine("{0} : {1}", line2.Substring(0, denominator), look_name[i]);
}
// We're going to change the texture! Check if it's the texture we're looking for
else if (linetrim.StartsWith("Texture {"))
{
filewrite3.WriteLine(line2);
//Console.WriteLine(line2);
line2 = file_baselook.ReadLine();
filewrite3.WriteLine(line2);
//Console.WriteLine(line2);
// Is this the right texture tag? Or does it matter anyway?
if ((line2.Contains(texture_tag[i])) || (texture_tag[i] == "any"))
{
line2 = file_baselook.ReadLine();
int denominator = line2.IndexOf(":");
int name_endpoint = line2.Length - (denominator + 3);
string texturename = line2.Substring(denominator + 2, name_endpoint);
if (texturename.Contains(texture_path[baselook_id]))
{
// Awesome! We can replace the texture!
filewrite3.WriteLine("{0}: \"{1}\"", line2.Substring(0, denominator), texture_path[i]);
//Console.WriteLine("{0} : \"{1}\"", line2.Substring(0, denominator), texture_path[i]);
}
// These are not the textures are looking for...
else
{
filewrite3.WriteLine(line2);
//Console.WriteLine(line2);
}
}
}
// Nothing to see here, just copy-paste...
else
{
filewrite3.WriteLine(line2);
//Console.WriteLine(line2);
}
}
}
// kthnxbai, we don't need to write to you anymore.
filewrite3.Close();
file_baselook.Close();
}
// Write down the base look!
else
{
filewrite2.WriteLine(line);
}
}
}
// Let's write down the trailer lines.
while (istrailer == true)
{
// Are we at the end of the file?
if (line == null)
{
// kthnxbai
islook = false;
istrailer = true;
filewrite4.Close();
break;
}
filewrite4.WriteLine(line);
//Console.WriteLine(line);
line = file.ReadLine();
}
}
// tl;dr, kthnxbai
file.Close();
}
// Entries, assemble!
using (var output = File.Create(filename))
{
foreach (var fileoutput in new[] { filedest1, filedest3, filedest4 })
{
using (var input = File.OpenRead(fileoutput))
{
input.CopyTo(output);
}
}
}
// Hey, cleaning lady! We need to clean-up some files!
try
{
System.IO.File.Delete(filedest1);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
Console.ReadLine();
return;
}
try
{
System.IO.File.Delete(filedest2);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
Console.ReadLine();
return;
}
try
{
System.IO.File.Delete(filedest3);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
Console.ReadLine();
return;
}
try
{
System.IO.File.Delete(filedest4);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
Console.ReadLine();
return;
}
}
}
}
}
private string ReadLine(StreamReader sr, int i)
{
var filePos = sourceFileLinePositions[i];
if (filePos < 0)
return "";
fs.Seek(filePos, SeekOrigin.Begin);
sr.DiscardBufferedData();
var line = sr.ReadLine();
return line;
}
public void SetaTabela()
{
System.IO.StreamReader file = new System.IO.StreamReader(pathTable);
for (int i = 0; i < colunas.Length; i++)
{
colunas[i].text = "";
}
while ((line = file.ReadLine()) != null)
{
if (endGame)
{
endGame.SetActive(false);
}
// Debug.Log("oque?" + line);
if (line == "NOVA TABELA VERDADE") //verifica se é um tabela
{
line = file.ReadLine();
_tableNumber = Convert(line[0]); // pega o numero dessa tabela e convert p int
if (_tableNumber == counter) //instruçoes de leitura aqui
// Debug.Log("Tabela " + tableNumber);
{
line = file.ReadLine(); //pega expressao
expressao.text = line;
expr = SplitString(line); //separa expr pra associar uma coluna da tabela a uma variavel
line = file.ReadLine(); //pega num de linhas da tabela
_numLinhas = Convert(line[0]); //Debug.Log(numLinhas); Debug.Log(expr);
double totalDeLinhas = Math.Pow(2, System.Convert.ToDouble(_numLinhas));
_acertos = new int[System.Convert.ToInt32(totalDeLinhas)];
Debug.Log(totalDeLinhas);
for (int i = 0; i < totalDeLinhas; i++) //a partir da conta do total de linhas pega tdas as linhas
{
line = file.ReadLine(); //linha da tabela
inputs[i] = Instantiate(inputPrefab, new Vector3(0, -75.5f - (85f * i), 0), Quaternion.identity); //seta novo input em sua coordenada
inputs[i].transform.SetParent(_resultadoTransform, false); //seta como child de Resultados
SetId inputScript = inputs[i].GetComponent <SetId>(); //busca script pra setar o id de cada input
inputScript.Id = i;
inputs[i].characterLimit = 1; //seta limite de caracteres como apenas 1
if (_vars > _numLinhas)
{
expr2 = KnowWhatIterate(expr, i);
foreach (var item in expr2)
{
if (item.Contains("-"))
{
colunas[(_convertColunas[item].GetHashCode() - 5)].text += line[_count] + "\n"; //escreve a linha da tabela no postivo
if (line[_count] == 'V') // nega a linha da tabela e escreve no negativo
{
colunas[_convertColunas[item].GetHashCode()].text += 'F' + "\n";
}
else
{
colunas[_convertColunas[item].GetHashCode()].text += 'V' + "\n";
}
_count += 2;
}
else
{
colunas[_convertColunas[item].GetHashCode()].text += line[_count] + "\n";
_count += 2;
}
}
_count = 0;
}
else
{
foreach (var item in expr) //associa cada coluna da tabela a uma variavel e printa na tela
{
if (item != null)
{
if (item.Contains("-"))
{
colunas[(_convertColunas[item].GetHashCode() - 5)].text += line[_count] + "\n"; //escreve a linha da tabela no postivo
if (line[_count] == 'V') // nega a linha da tabela e escreve no negativo
{
colunas[_convertColunas[item].GetHashCode()].text += 'F' + "\n";
}
else
{
colunas[_convertColunas[item].GetHashCode()].text += 'V' + "\n";
}
_count += 2;
}
else
{
colunas[_convertColunas[item].GetHashCode()].text += line[_count] + "\n";
_count += 2;
}
}
}
_count = 0;
}
}
file.ReadLine(); //lê o espaço entre a tabela e as respostas
resps = file.ReadLine();
resp = SplitString(resps); //separa o vetor de respostas p associar aos inputs
counter++;
break;
}
}
if ((line = file.ReadLine()) == null) //vai para algum lugar, fim do arquivo de tabelas**
{
TimeScript timer = time.GetComponent <TimeScript>();
_tempos[userCount] = timer.EndGame();// Debug.Log("atualiza text");
for (int i = 0; i < _tempos.Length; i++)
{
if (_users[i] != null) //Debug.Log("USERS " + users[i] + "TEMPOS " + tempos[i]);
{
userTable.text += String.Format("{0,-12}{1,24}\n", _users[i], _tempos[i] + " segundos");
}
}
endFile.SetActive(true); //Debug.Log("não tem mais tabela");
file.DiscardBufferedData();
//line = file.ReadLine();
//path = "";
//pathTable = "/Assets/NewAdds/";
// file.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
}
}
}
public static bool IsBinaryFile(FileStream F)
{
F.Seek(0, SeekOrigin.Begin);
//First see if the file begins with any known Unicode byte order marks.
//If so, then it is a text file. Use a StreamReader instance to do the
//auto-detection logic.
//
//NOTE: I'm not disposing of the StreamReader because that closes the
//associated Stream. The caller opened the file stream, so they should
//be the one to close it.
StreamReader Reader = new StreamReader(F, Encoding.Default, true);
Reader.Read(); //We have to force a Read for it to auto-detect.
if (Reader.CurrentEncoding != Encoding.Default)
{
return false;
}
Reader.DiscardBufferedData();
Reader = null;
//Since the type was Default encoding, that means there were no byte-order
//marks to indicate its type. So we have to scan. If we find a NULL
//character in the stream, that means it's a binary file.
F.Seek(0, SeekOrigin.Begin);
int i;
while ((i = F.ReadByte()) > -1)
{
if (i == 0)
{
return true;
}
}
return false;
}
/// <summary>
/// Reset to Original position 0
/// </summary>
public void Reset()
{
file.DiscardBufferedData();
file.BaseStream.Seek(0, SeekOrigin.Begin);
file.BaseStream.Position = 0;
}
private bool GetEncoding(LogFile logFile)
{
logFile.HasBom = false;
logFile.Encoding = Encoding.GetEncoding("ISO-8859-1"); // extended ascii
try
{
// ascii will be default as it never has bom if all fail utf-7 rarely used and does
// not have preamble. wiki says 2b,2f,76,variable
SetStatus("GetEncoding:enter: " + logFile.Tag);
Encoding[] encodings = new Encoding[] { Encoding.UTF32, Encoding.UTF8, Encoding.BigEndianUnicode, Encoding.Unicode };
//logFile.FileName = Path.GetFileName(fileName);
// find bom
bool foundEncoding = false;
using (System.IO.StreamReader sr = new System.IO.StreamReader(logFile.Tag, true))
{
// encoding = sr.CurrentEncoding;
SetStatus("current encoding:" + logFile.Encoding.EncodingName);
// biggest preamble is 4 bytes
if (sr.BaseStream.Length < 4)
{
return(true);
}
int[] srBytes = new int[4];
for (int c = 0; c < srBytes.Length; c++)
{
srBytes[c] = sr.BaseStream.ReadByte();
}
sr.DiscardBufferedData();
foreach (Encoding enc in encodings)
{
byte[] bytes = enc.GetPreamble();
for (int i = 0; i < bytes.Length; i++)
{
if (bytes[i] != srBytes[i])
{
foundEncoding = false;
break;
}
else
{
foundEncoding = true;
}
}
if (foundEncoding)
{
logFile.HasBom = true;
logFile.Encoding = enc;
return(true);
}
}
// if bom not supplied, try to determine utf-16 (unicode)
while (!sr.EndOfStream)
{
string line = sr.ReadLine();
byte[] bytes = Encoding.UTF8.GetBytes(line);
string newLine = Encoding.UTF8.GetString(bytes).Replace("\0", "");
SetStatus(string.Format("check encoding: bytes:{0} string: {1}", bytes.Length, newLine.Length));
if (bytes.Length > 0 && newLine.Length > 0 &&
((bytes.Length - newLine.Length) * 2 - 1 == bytes.Length
| (bytes.Length - newLine.Length) * 2 == bytes.Length))
{
SetStatus(string.Format("new encoding:Unicode bytes:{0} string: {1}", bytes.Length, newLine.Length));
logFile.Encoding = Encoding.Unicode;
SetStatus("new encoding:" + logFile.Encoding.EncodingName);
break;
}
else if (bytes.Length > 0 && newLine.Length > 0)
{
break;
}
}
}
return(true);
}
catch (Exception e)
{
SetStatus("Exception:GetEncoding:" + e.ToString());
return(false);
}
}
private void TrimLog (FileInfo logFile)
{
// Check if we need to trim the log file:
if (logFile.Exists && logFile.Length >= FileTrimThresholdSize) {
var tmpFile = new FileInfo (Path.Combine (logDir, FileTempName));
try {
if (tmpFile.Exists) {
tmpFile.Delete ();
}
File.Move (logFile.FullName, tmpFile.FullName);
logFile.Refresh ();
tmpFile.Refresh ();
// Copy data over to new file
using (var tmpReader = new StreamReader (tmpFile.FullName, Encoding.UTF8))
using (var logWriter = new StreamWriter (logFile.FullName, false, Encoding.UTF8)) {
// Skip to where we can start copying
tmpReader.BaseStream.Seek (-FileTrimTargetSize, SeekOrigin.End);
tmpReader.DiscardBufferedData ();
tmpReader.ReadLine ();
string line;
while ((line = tmpReader.ReadLine ()) != null) {
logWriter.WriteLine (line);
}
}
} catch (SystemException ex) {
Console.WriteLine ("Failed to trim log file.");
Console.WriteLine (ex);
// Make sure that the log file is deleted so we can start a new one
try {
logFile.Delete ();
} catch (SystemException ex2) {
Console.WriteLine ("Failed to clean up log file.");
Console.WriteLine (ex2);
}
} finally {
try {
tmpFile.Delete ();
} catch (SystemException ex) {
Console.WriteLine ("Failed to clean up temporary log file.");
Console.WriteLine (ex);
}
}
}
}
public static string binSearchSemCor(string uniqueid, string searchKey,StreamReader fp)
{
int c,n;
long top,bot,mid,diff;
string line,key;
searchKey = searchKey.ToLower(); // for some reason some WordNet words are stored with a capitalised first letter, whilst all words in the sense index are lowercase
diff = 666; // ???
line = "";
bot = fp.BaseStream.Seek(0,SeekOrigin.End);
top = 0;
mid = (bot-top)/2;
do
{
fp.DiscardBufferedData();
fp.BaseStream.Position = mid-1;
if (mid!=1)
fp.ReadLine();
// while ((c=fp.Read())!='\n' && c!=-1)
// ;
line = fp.ReadLine();
if (line==null)
return null;
n = line.IndexOf('%');
key = line.Substring(0,n);
int co; // compareordinal result
co = String.CompareOrdinal(key, searchKey);
if (co<0)
{
// key is alphabetically less than the search key
top = mid;
diff = (bot - top)/2;
mid = top + diff;
}
if (co>0)
{
// key is alphabetically greater than the search key
bot = mid;
diff = (bot - top)/2;
mid = top + diff;
}
} while (key!=searchKey && diff!=0);
// we have found an exact match
if (line.IndexOf(uniqueid, 0) > 0)
return line;
// set the search down the list and work up
fp.DiscardBufferedData();
fp.BaseStream.Position -= 4000;
//fp.BaseStream.Seek((long)(-1000), SeekOrigin.Current);
// move down until we find the first matching key
do
{
line = fp.ReadLine();
n = line.IndexOf('%');
key = "";
if(n > 0)
key = line.Substring(0,n);
} while(key != searchKey);
// scroll through matching words until the exact identifier is found
do
{
if(line.IndexOf(uniqueid, 0) > 0)
return line;
line = fp.ReadLine();
n = line.IndexOf('%');
key = line.Substring(0,n);
} while(key == searchKey);
return null;
}
protected override MemoryStream getStreamDataPortion(MemoryStream data )
{
StreamReader reader = new StreamReader(data, ASCIIEncoding.ASCII);
String line = reader.ReadLine();
if ( line.StartsWith("*") ) {
int size = this.parseInteger((line.Substring(line.LastIndexOf('{'))).Trim(new Char[]{'{','}'}));
if ( size>0 ) {
int offset = ASCIIEncoding.ASCII.GetByteCount(line + "\r\n");
reader.DiscardBufferedData();
reader=null;
data.Seek(offset, SeekOrigin.Begin);
data.SetLength(offset + size);
}
}
return data;
}
private bool readBCI2000dat(string filename, out Data_BCI2000 info, out double[][] samples)
{
FileStream dataStream = null;
StreamReader dataReader = null;
// check if the file exists
if (!File.Exists(filename))
{
MessageBox.Show("Could not find input file", "File error", MessageBoxButtons.OK, MessageBoxIcon.Error);
info = null;
samples = null;
return(false);
}
try {
// open file stream
dataStream = new FileStream(filename, FileMode.Open);
// open reader
//dataReader = new System.IO.StreamReader(filestream, System.Text.Encoding.UTF8, true, 128);
dataReader = new System.IO.StreamReader(dataStream);
} catch (Exception) {
// message
MessageBox.Show("Could not create filestream to data file '" + filename + "' for reading");
info = null;
samples = null;
return(false);
}
// create a new bci2000 data object
info = new Data_BCI2000();
// retrieve the first line
info.firstLine = dataReader.ReadLine();
// retrieve HeaderLen
string fieldName = "HeaderLen=";
int fieldValueLength = 6;
int pos = info.firstLine.IndexOf(fieldName);
if (pos == -1 || info.firstLine.Length < pos + fieldName.Length + fieldValueLength)
{
MessageBox.Show("Could not retrieve " + fieldName + ", aborting");
info = null;
samples = null;
return(false);
}
bool result = Int32.TryParse(info.firstLine.Substring(pos + fieldName.Length, fieldValueLength), out info.headerLen);
if (!result)
{
MessageBox.Show("Could not retrieve " + fieldName + ", aborting");
info = null;
samples = null;
return(false);
}
// retrieve SourceCh
fieldName = "SourceCh=";
fieldValueLength = 2;
pos = info.firstLine.IndexOf(fieldName);
if (pos == -1 || info.firstLine.Length < pos + fieldName.Length + fieldValueLength)
{
MessageBox.Show("Could not retrieve " + fieldName + ", aborting");
info = null;
samples = null;
return(false);
}
result = Int32.TryParse(info.firstLine.Substring(pos + fieldName.Length, fieldValueLength), out info.sourceCh);
if (!result)
{
MessageBox.Show("Could not retrieve " + fieldName + ", aborting");
info = null;
samples = null;
return(false);
}
// retrieve StatevectorLen
fieldName = "StatevectorLen=";
//fieldValueLength = 3;
pos = info.firstLine.IndexOf(fieldName);
fieldValueLength = Math.Min(3, info.firstLine.Length - (pos + fieldName.Length)); // adjusted: fieldValueLength is variable: so it is either three, or in case the string is shorter, the remainder of the string: either 1 or 2
if (pos == -1 || info.firstLine.Length < pos + fieldName.Length + fieldValueLength)
{
MessageBox.Show("Could not retrieve " + fieldName + ", aborting");
info = null;
samples = null;
return(false);
}
result = Int32.TryParse(info.firstLine.Substring(pos + fieldName.Length, fieldValueLength), out info.stateVectorLen);
if (!result)
{
MessageBox.Show("Could not retrieve " + fieldName + ", aborting");
info = null;
samples = null;
return(false);
}
// retrieve entire header
char[] buffer = new char[info.headerLen];
dataStream.Position = 0;
dataReader.DiscardBufferedData();
dataReader.ReadBlock(buffer, 0, info.headerLen);
info.header = new string(buffer);
// retrieve the sample rate from the header
if (!getDoubleParameterFromHeader(info.header, "SamplingRate", out info.samplingRate))
{
MessageBox.Show("Could not retrieve sample rate from header, aborting");
info = null;
samples = null;
return(false);
}
// set the dataStream position to the start of the data (needed, readblock before messed it up)
dataStream.Position = info.headerLen;
// set
int mDataSize = 2; // each sample in BCI2000 is stored as an int16 (2 bytes)
// calculate the number of samples
info.numSamples = (int)(dataStream.Length - info.headerLen) / (mDataSize * info.sourceCh + info.stateVectorLen);
// init matrix for all samples values
samples = new double[info.numSamples][];
// retrieve the data
for (int i = 0; i < info.numSamples; i++)
{
// init the row of samples
samples[i] = new double[info.sourceCh];
// read the samples
byte[] channels = new byte[mDataSize * info.sourceCh];
dataStream.Read(channels, 0, mDataSize * info.sourceCh);
// convert each channel
for (int j = 0; j < info.sourceCh; j++)
{
samples[i][j] = BitConverter.ToInt16(channels, j * mDataSize);
}
// read the state vector data
byte[] stateVector = new byte[info.stateVectorLen];
dataStream.Read(stateVector, 0, info.stateVectorLen);
// TODO: interpret state vector
}
// close the datastream
if (dataStream != null)
{
dataStream.Close();
}
dataReader = null;
dataStream = null;
// return success
return(true);
}
private void LoadHike_Click(object sender, EventArgs e)
{
if (openHikeDialog.ShowDialog() == DialogResult.OK)
{
try
{
System.IO.StreamReader sr = new System.IO.StreamReader(openHikeDialog.FileName);
//(System.IO.FileStream)saveHikeDialog.OpenFile());
//clear the current hike
ClearMap();
int count = 0;
while (sr.ReadLine() != null)
{
count++;
}
hike = new LocPoint[count];
MainMap.Refresh();
//load points into hike variable
string line;
string[] lineParts = new string[11];
sr.DiscardBufferedData();
sr.BaseStream.Seek(0, SeekOrigin.Begin);
count = 0;
while ((line = sr.ReadLine()) != null)
{
lineParts = line.Split(',');
hike[count].degreeNorthSouth = Convert.ToInt32(lineParts[0]);
hike[count].minuteNorthSouth = Convert.ToSingle(lineParts[1]);
hike[count].northSouth = Convert.ToChar(lineParts[2]);
hike[count].degreeEastWest = Convert.ToInt32(lineParts[3]);
hike[count].minuteEastWest = Convert.ToSingle(lineParts[4]);
hike[count].eastWest = Convert.ToChar(lineParts[5]);
hike[count].elevation = Convert.ToInt32(lineParts[6]);
hike[count].capTime.hours = Convert.ToInt32(lineParts[7]);
hike[count].capTime.minutes = Convert.ToInt32(lineParts[8]);
hike[count].capTime.seconds = Convert.ToInt32(lineParts[9]);
hike[count].distancedHiked = Convert.ToDouble(lineParts[10]);
count++;
}
//put points on the map
AddPointsToMap();
MainMap.Refresh();
//allow the user to save hikes
SaveHike.Enabled = true;
}
catch
{
//error opening file
MessageBox.Show("Error opening file", "Error");
}
}
else
{
//not a valid file
}
}
/// <summary>
/// was a static function, returns max index, min values, max values arrays as a reference
/// </summary>
public void getConfigFileMinMaxValues(string restore_filename, ref double[] feature_max, ref double[] feature_min, ref int max_index)
{
max_index = -1;
StreamReader fp_restore;
fp_restore = null;
if (restore_filename != null)
{
int idx, c;
double fmin, fmax;
string restore_line;
double lower = -1.0;
double upper = 1.0;
double y_lower;
double y_upper;
bool y_scaling = false;
double y_max = -System.Double.MaxValue;
double y_min = System.Double.MaxValue;
//open file.
try
{
fp_restore = new StreamReader(restore_filename);
}
catch (System.Exception e)
{
System.Console.Error.WriteLine("can't open file " + restore_filename);
}
//STEP - 1: find max index
if (fp_restore.Read() == 'y')
{
fp_restore.ReadLine();
fp_restore.ReadLine();
fp_restore.ReadLine();
}
fp_restore.ReadLine();
fp_restore.ReadLine();
restore_line = null;
while ((restore_line = fp_restore.ReadLine()) != null)
{
idx = int.Parse(restore_line.Split(',')[0]);
max_index = System.Math.Max(max_index, idx);
}
//STEP2: allocate memory
try
{
feature_max = new double[(max_index + 1)];
feature_min = new double[(max_index + 1)];
}
catch (OutOfMemoryException e)
{
System.Console.Error.WriteLine("can't allocate enough memory");
}
//rewind stream.
fp_restore.BaseStream.Position = 0;
fp_restore.DiscardBufferedData();
//STEP - 3: find all min/max values
if (fp_restore.Read() == 'y')
{
fp_restore.ReadLine(); // pass the '\n' after 'y'
restore_line = fp_restore.ReadLine();
string[] restore_line_ar = restore_line.Split(',');
y_lower = double.Parse(restore_line_ar[0]);
y_upper = double.Parse(restore_line_ar[1]);
restore_line = fp_restore.ReadLine();
restore_line_ar = restore_line.Split(',');
y_min = double.Parse(restore_line_ar[0]);
y_max = double.Parse(restore_line_ar[1]);
y_scaling = true;
}
else
{
fp_restore.BaseStream.Position = 0;
fp_restore.DiscardBufferedData();
}
if (fp_restore.Read() == 'x')
{
fp_restore.ReadLine(); // pass the '\n' after 'x'
restore_line = fp_restore.ReadLine();
string[] restore_line_ar = restore_line.Split(',');
lower = double.Parse(restore_line_ar[0]);
upper = double.Parse(restore_line_ar[1]);
restore_line = null;
restore_line_ar = null;
while ((restore_line = fp_restore.ReadLine()) != null)
{
restore_line_ar = restore_line.Split(',');
idx = int.Parse(restore_line_ar[0]);
fmin = double.Parse(restore_line_ar[1]);
fmax = double.Parse(restore_line_ar[2]);
if (idx <= max_index) // this will ignore index 204801 if the max is 204800
{
feature_min[idx] = fmin;
feature_max[idx] = fmax;
}
}
}
fp_restore.Close();
}
}
private void btnLoadMultiBoundaryFromGE_Click(object sender, EventArgs e)
{
string fileAndDirectory;
{
//create the dialog instance
OpenFileDialog ofd = new OpenFileDialog
{
//set the filter to text KML only
Filter = "KML files (*.KML)|*.KML",
//the initial directory, fields, for the open dialog
InitialDirectory = mf.fieldsDirectory + mf.currentFieldDirectory
};
//was a file selected
if (ofd.ShowDialog() == DialogResult.Cancel)
{
return;
}
else
{
fileAndDirectory = ofd.FileName;
}
}
//start to read the file
string line = null;
int index;
using (System.IO.StreamReader reader = new System.IO.StreamReader(fileAndDirectory))
{
int bndCount = 0;
ResetAllBoundary();
while (!reader.EndOfStream)
{
line = reader.ReadLine();
index = line.IndexOf("<coordinates>");
if (index != -1)
{
bndCount++;
}
}
reader.DiscardBufferedData();
reader.BaseStream.Seek(0, SeekOrigin.Begin);
reader.BaseStream.Position = 0;
if (bndCount > 0)
{
}
try
{
for (int i = 0; i < bndCount; i++)
{
//step thru the file till first boundary
while (!reader.EndOfStream)
{
line = reader.ReadLine();
index = line.IndexOf("<coord");
if (index != -1)
{
break;
}
}
line = reader.ReadLine();
line = line.Trim();
char[] delimiterChars = { ' ', '\t', '\r', '\n' };
string[] numberSets = line.Split(delimiterChars);
//at least 3 points
if (numberSets.Length > 2)
{
//reset boundary
foreach (var item in numberSets)
{
string[] fix = item.Split(',');
double.TryParse(fix[0], NumberStyles.Float, CultureInfo.InvariantCulture, out lonK);
double.TryParse(fix[1], NumberStyles.Float, CultureInfo.InvariantCulture, out latK);
double[] xy = mf.pn.DecDeg2UTM(latK, lonK);
//match new fix to current position
easting = xy[0] - mf.pn.utmEast;
northing = xy[1] - mf.pn.utmNorth;
//fix the azimuth error
easting = (Math.Cos(-mf.pn.convergenceAngle) * easting) - (Math.Sin(-mf.pn.convergenceAngle) * northing);
northing = (Math.Sin(-mf.pn.convergenceAngle) * easting) + (Math.Cos(-mf.pn.convergenceAngle) * northing);
//add the point to boundary
CBndPt bndPt = new CBndPt(easting, northing, 0);
mf.bnd.bndArr[i].bndLine.Add(bndPt);
}
//fix the points if there are gaps bigger then
mf.bnd.bndArr[i].CalculateBoundaryHeadings();
mf.bnd.bndArr[i].PreCalcBoundaryLines();
mf.bnd.bndArr[i].FixBoundaryLine(i);
//boundary area, pre calcs etc
mf.bnd.bndArr[i].CalculateBoundaryArea();
mf.bnd.bndArr[i].PreCalcBoundaryLines();
mf.bnd.bndArr[i].isSet = true;
mf.bnd.bndArr[i].isDriveAround = true;
}
else
{
mf.TimedMessageBox(2000, "Error reading KML", "Choose or Build a Different one");
}
}
mf.FileSaveBoundary();
UpdateChart();
cboxSelectBoundary.Enabled = true;
}
catch (Exception)
{
return;
}
}
}
private void frmLogin_Load(object sender, EventArgs e)
{
//READ FILE
//local variables
string[] productData;
string[] branchData;
string[] categoryData;
//set up StreamReader
StreamReader reader = new StreamReader("argus-BIG.txt");
//make reader start at beginning of file
reader.DiscardBufferedData();
reader.BaseStream.Seek(0, SeekOrigin.Begin);
reader.BaseStream.Position = 0;
while (!reader.EndOfStream)
{
//create array to hold data values
branchData = new string[11];
//get 11 lines of branch data file
for (int i = 0; i < 11; i++)
{
branchData[i] = reader.ReadLine();
}
//new instance of Branch Class
Branch tempBranch = new Branch(branchData[0], branchData[1], branchData[2],
branchData[3], branchData[4], branchData[5],
branchData[6], branchData[7], branchData[8],
branchData[9], Convert.ToInt32(branchData[10]));
//add branch to main arrayList
tempBranch.addBranchToMainArgus(tempBranch);
for (int i = 0; i < Convert.ToInt32(tempBranch.getNoCategories()); i++)
{
//create array to hold data values
categoryData = new string[3];
//get 3 lines of category data file
for (int j = 0; j < 3; j++)
{
categoryData[j] = reader.ReadLine();
}
//new instance of Category Class
Category tempCategory = new Category(Convert.ToInt32(categoryData[0]), categoryData[1],
Convert.ToInt32(categoryData[2]));
//add category to Categories in branch arrayList
tempBranch.addCategoryToBranch(tempCategory);
for (int j = 0; j < Convert.ToInt32(tempCategory.getNoProduct()); j++)
{
//create array to hold data values
productData = new string[6];
//get 6 lines of category data file
for (int k = 0; k < 6; k++)
{
productData[k] = reader.ReadLine();
}
//new instance of Product Class
Product tempProduct = new Product(Convert.ToInt32(productData[0]), productData[1], productData[2],
productData[3], Convert.ToSingle(productData[4]), Convert.ToInt32(productData[5]));
//add product to productsincategory arraylist
tempCategory.addProduct(tempProduct);
}
}
}
}
static bool VerifyZipAndRegion()
{
//////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////// INITIALIZING VARIABLES
//////////////////////////////////////////////////////////////////////////////////////////
string[] aryTableParsedLine;
string[] aryDataParsedLine;
string strDataLine;
string strTableLine;
string strEditedDataFile = strInputDataName.ToUpper().Replace(".CSV", "_EDITED.CSV");
string strCurrentZip;
string strDataZipAndRegion;
string strTableZipAndRegion;
int iZipFieldIndex = 0;
int iDataFields;
bool bolFoundRegionMatch;
int iInputRecords;
int iEditedRecords;
int iMismatchRecords;
bool bolZipFieldFound = false;
strRegionErrorsRemoved = strWorkingJobFolder + strJobNumber + " - Region Mismatches Removed.csv";
StreamReader streamInitialFileScan = new StreamReader(strInputDataName);
StreamReader streamTableFile = new StreamReader(strZipToRegionTable);
StreamWriter streamEditedDataFile = new StreamWriter(strEditedDataFile);
StreamWriter streamRegionMismatches = new StreamWriter(strRegionErrorsRemoved);
TextFieldParser parseDataFile = new TextFieldParser(strInputDataName);
parseDataFile.TextFieldType = FieldType.Delimited;
parseDataFile.SetDelimiters(",");
try
{
//////////////////////////////////////////////////////////////////////////////////////////
////////////////////////// DETERMINING WHICH FIELD IN THE INPUT DATA CONTAINS THE ZIP CODE
//////////////////////////////////////////////////////////////////////////////////////////
strDataLine = streamInitialFileScan.ReadLine();
aryDataParsedLine = strDataLine.Split(',');
iDataFields = aryDataParsedLine.Length;
for (int j = 0; j < iDataFields; j++)
{
if (aryDataParsedLine[j].ToString().ToUpper().Contains("ZIP"))
{
bolZipFieldFound = true;
streamEditedDataFile.WriteLine(strDataLine);
iZipFieldIndex = j;
break;
}
}
streamInitialFileScan.Close();
streamInitialFileScan.Dispose();
// Verifying that a zip code field exists in the input data file.
if (!bolZipFieldFound)
{
LogFile("A Zip field is not included in the input data file.", true);
return false;
}
//////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////// TESTING EACH RECORD AGAINST THE ZIP-REGION TABLE
//////////////////////////////////////////////////////////////////////////////////////////
while (!parseDataFile.EndOfData)
{
bolFoundRegionMatch = false;
strDataLine = parseDataFile.PeekChars(Int32.MaxValue);
aryDataParsedLine = parseDataFile.ReadFields();
// Capturing the zip and region combination from the current record.
strCurrentZip = aryDataParsedLine[iZipFieldIndex].ToString().Trim();
if (strCurrentZip.Length > 5)
{
strCurrentZip = strCurrentZip.Substring(0,5);
}
strDataZipAndRegion = strCurrentZip + strRegionCode;
// Looping through the Zip and Region Lookup Table to see if a zip is within a valid region.
while (!streamTableFile.EndOfStream)
{
strTableLine = streamTableFile.ReadLine();
aryTableParsedLine = strTableLine.Split(',');
strTableZipAndRegion = aryTableParsedLine[0].ToString() + aryTableParsedLine[2].ToString().ToUpper().Trim();
if (strDataZipAndRegion == strTableZipAndRegion)
{
bolFoundRegionMatch = true;
break;
}
}
if (bolFoundRegionMatch)
{
streamEditedDataFile.WriteLine(strDataLine);
}
else
{
streamRegionMismatches.WriteLine(strDataLine);
}
streamTableFile.DiscardBufferedData();
streamTableFile.BaseStream.Position = 0;
}
}
catch (Exception exception)
{
LogFile(exception.ToString(), true);
return false;
}
finally
{
streamEditedDataFile.Close();
streamEditedDataFile.Dispose();
streamTableFile.Close();
streamTableFile.Dispose();
streamRegionMismatches.Close();
streamRegionMismatches.Dispose();
parseDataFile.Close();
parseDataFile.Dispose();
}
//////////////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////// DETERMINING IF THE HIGHMARK THRESHOLD HAS BEEN REACHED
//////////////////////////////////////////////////////////////////////////////////////////
try
{
// Calculating total number of input records.
iInputRecords = File.ReadAllLines(strInputDataName).Length - 1;
// Calculating total number of edited records.
iEditedRecords = File.ReadAllLines(strEditedDataFile).Length - 1;
// Calculating total number of mismatch records.
iMismatchRecords = File.ReadAllLines(strRegionErrorsRemoved).Length - 1;
if ((((decimal)iEditedRecords / (decimal)iInputRecords) * 100) <= iZipToRegionMismatchThreshold)
{
bolRegionMismatchThresholdReached = true;
SendEmail("HIGHMARK");
LogFile("At least " + (100 - iZipToRegionMismatchThreshold).ToString() + "% of records submitted for processing were removed as Region-Zip mismatches.", true);
return false;
}
else
{
if (iMismatchRecords > 1)
{
SendEmail("HIGHMARK");
}
}
}
catch (Exception exception)
{
LogFile(exception.ToString(), true);
return false;
}
strInputDataName = strEditedDataFile;
return true;
}
// ----------------------------------------------------
// CityStates.txt
static void CityStates()
{
string line3;
System.IO.StreamReader file3 = new System.IO.StreamReader("cities.txt");
// List to hold cities in cities.txt
List <string> cities = new List <string>();
// add cities to cities list
while ((line3 = file3.ReadLine()) != null)
{
cities.Add(line3);
}
System.IO.StreamReader zipcodes3 = new System.IO.StreamReader("zipcodes.txt");
List <string> CityStates = new List <string>();
// for each city, check each line of zipcodes for matching city
// if city matches, add it to CityStates
foreach (string city in cities)
{
// move to beginning of zipcodes.txt for each city
zipcodes3.DiscardBufferedData();
zipcodes3.BaseStream.Seek(0, System.IO.SeekOrigin.Begin);
CityStates.Add("\n");
CityStates.Add(city);
while ((line3 = zipcodes3.ReadLine()) != null)
{
string[] words3 = line3.Split('\t');
// add states to CityStates list if they have the given city
if (words3[3] == city.ToUpper())
{
CityStates.Add(words3[4]);
}
}
}
List <string> CityStates2 = new List <string>();
using (StreamWriter writeText3 = new StreamWriter("CityStates.txt")) {
foreach (string entry in CityStates)
{
// if entry is the name of the city
if (entry.Length != 2)
{
CityStates2.Sort();
foreach (string cityState in CityStates2)
{
writeText3.Write(cityState + " ");
}
// clear the list for the next city
CityStates2.Clear();
writeText3.Write(entry);
writeText3.Write(" ");
}
else if (entry.Length == 2 && !CityStates2.Contains(entry))
{
CityStates2.Add(entry);
}
}
// at end of CityStates, sort and write CityStates2
CityStates2.Sort();
foreach (string cityState in CityStates2)
{
writeText3.Write(cityState + " ");
}
}
file3.Close();
zipcodes3.Close();
}