private void WriteMatrixToFile(Matrix m, bool isDyadic, bool overwrite)
{
int oldID = m.NetworkId;
for (int i = 0; i < _writeRepeatCount; ++i)
{
if (_writeRepeatCount > 1)
{
m.NetworkId = int.Parse(oldID.ToString() + (i + 1).ToString());
}
if (m is Vector)
{
MatrixWriter.WriteVectorToVectorFile(m as Vector, _outputFile, overwrite);
}
else if (_forceVector)
{
MatrixWriter.WriteVectorToVectorFile(m.GetDiagonalVector(), _outputFile, overwrite);
}
else if (!isDyadic)
{
MatrixWriter.WriteMatrixToMatrixFile(m, _outputFile, overwrite);
}
else
{
MatrixWriter.WriteMatrixToDyadicFile(m, _outputFile, overwrite);
}
}
m.NetworkId = oldID;
}
public CrosswordGenerator(string[,] crossword, WordsOperator wordsOperator)
{
this.crossword = crossword;
this.wordsOperator = wordsOperator;
this.listOfAllWords = wordsOperator.ListOfAllWords;
this.randomGenerator = new RandomGenerator();
this.arrayOperator = new ArrayOperator();
this.wordVerificator = new WordsVerificator();
this.painter = new Painter();
this.matrixWriter = new MatrixWriter(wordsOperator);
this.crosswordSolver = new CrosswordSolver();
}
static void Main(string[] args)
{
String input = Console.ReadLine(),
output = Console.ReadLine();
try {
Str[][] origin = new MatrixReader <Str>(input).GetResult(),
result = FloydWarshallExecutor <Str> .Execute(new Matrix <Str>(origin), new StrSemigroup()).GetTable();
MatrixWriter <Str> .WriteMatrix(result, output);
} catch (ArgumentException exception) {
Console.WriteLine(exception.Message);
}
}
static void Main(string[] args)
{
string input1, input2, output;
Console.WriteLine("Hello! What would you like to do?\n");
Console.WriteLine("1. Compute Natural Number Matrix Product");
Console.WriteLine("2. Get a Transitive Clousure Graph of a Boolean Matrix");
Console.WriteLine("3. Compute APSP for Natural Matrix");
switch (Console.ReadLine())
{
case "1":
Console.WriteLine("Enter paths to the matrixes");
input1 = Console.ReadLine();
input2 = Console.ReadLine();
Console.WriteLine("Enter output filename");
output = Console.ReadLine();
Matrix <NaturalNumber> m1 = MatrixReader <NaturalNumber> .Read(input1),
m2 = MatrixReader <NaturalNumber> .Read(input2);
MatrixWriter <NaturalNumber> .Write(m1 *m2, output);
break;
case "2":
Console.WriteLine("Enter paths to the matrix");
input1 = Console.ReadLine();
Console.WriteLine("Enter output filename");
output = Console.ReadLine();
Matrix <Boolean> boo = MatrixReader <Boolean> .Read(input1);
PdfGenerator.Generate(boo, TransitiveClosureProcessor.Process(boo), output);
break;
case "3":
Console.WriteLine("Enter paths to the matrix");
input1 = Console.ReadLine();
Console.WriteLine("Enter output filename");
output = Console.ReadLine();
Matrix <NaturalNumber> natural = MatrixReader <NaturalNumber> .Read(input1);
MatrixWriter <NaturalNumber> .Write(FloydWarshallProcessor <NaturalNumber> .Process(natural), output);
break;
}
Console.WriteLine(@"output is generated in ..\Task2\CSharp\MatrixProcessor\bin\Debug\netcoreapp3.1");
}
static void Main(string[] args)
{
String m1_input = Console.ReadLine(),
m2_input = Console.ReadLine(),
output = Console.ReadLine();
Natural[][] t1 = new MatrixReader <Natural>(m1_input).GetResult(),
t2 = new MatrixReader <Natural>(m2_input).GetResult();
try {
Matrix <Natural> m1 = new Matrix <Natural>(t1),
m2 = new Matrix <Natural>(t2);
Matrix <Natural> m = Matrix <Natural> .Multiply(m1, m2, new NaturalSemiring());
MatrixWriter <Natural> .WriteMatrix(m.GetTable(), output);
} catch (ArgumentException exception) {
Console.WriteLine(exception.Message);
}
}
public static void UniversalDDA(IRawFileThreadManager rawFileThreadManager, WorkflowParameters parameters, QcDataCollection qcDataCollection)
{
MethodDataContainer methodData;
CentroidStreamCollection centroidStreams;
SegmentScanCollection segmentScans;
TrailerExtraCollection trailerExtras;
PrecursorMassCollection precursorMasses;
RetentionTimeCollection retentionTimes;
ScanEventReactionCollection reactions;
ScanMetaDataCollectionDDA metaData = null;
PrecursorPeakCollection peakData = null;
int nScans;
var staticRawFile = rawFileThreadManager.CreateThreadAccessor();
staticRawFile.SelectInstrument(Device.MS, 1);
var err = staticRawFile.FileError;
if (err.HasError)
{
Console.WriteLine("ERROR: {0} reports error code: {1}. The associated message is: {2}",
Path.GetFileName(staticRawFile.FileName), err.ErrorCode, err.ErrorMessage);
Console.WriteLine("Skipping this file");
Log.Error("{FILE} reports error code: {ERRORCODE}. The associated message is: {ERRORMESSAGE}",
Path.GetFileName(staticRawFile.FileName), err.ErrorCode, err.ErrorMessage);
return;
}
//staticRawFile.CheckIfBoxcar();
(ScanIndex Index, PrecursorScanCollection precursorScans, ScanDependentsCollections scanDependents) =
Extract.ScanIndicesPrecursorsDependents(rawFileThreadManager, MaxProcesses: parameters.MaxProcesses);
nScans = Index.ScanEnumerators[MSOrderType.Ms2].Length;
using (var rawFile = rawFileThreadManager.CreateThreadAccessor())
{
reactions = Extract.ScanEvents(rawFile, Index);
methodData = Extract.MethodData(rawFile, Index);
(centroidStreams, segmentScans) = Extract.MsData(rawFile: rawFile, index: Index);
trailerExtras = Extract.TrailerExtras(rawFile, Index);
precursorMasses = Extract.PrecursorMasses(rawFile, precursorScans, trailerExtras, Index);
retentionTimes = Extract.RetentionTimes(rawFile, Index);
}
if (parameters.ParseParams.Parse | parameters.ParseParams.Quant | parameters.ParseParams.Metrics | parameters.RefineMassCharge | parameters.QcParams.QcDirectory != null)
{
peakData = AnalyzePeaks.AnalyzeAllPeaks(centroidStreams, retentionTimes, precursorMasses, precursorScans, Index, parameters.MaxProcesses);
if (parameters.RefineMassCharge)
{
MonoIsoPredictor.RefineMonoIsoMassChargeValues(parameters, centroidStreams, precursorMasses, trailerExtras, peakData, precursorScans);
}
metaData = MetaDataProcessingDDA.AggregateMetaDataDDA(centroidStreams, segmentScans, methodData, precursorScans,
trailerExtras, precursorMasses, retentionTimes, scanDependents, reactions, Index, parameters.MaxProcesses);
}
QuantDataCollection quantData = null;
if (parameters.ParseParams.Quant)
{
quantData = Quantification.Quantify(centroidStreams, segmentScans, parameters, methodData, Index);
}
RawMetricsDataDDA rawMetrics = null;
if (parameters.ParseParams.Metrics | parameters.QcParams.QcDirectory != null)
{
rawMetrics = MetaDataProcessingDDA.GetMetricsDataDDA(metaData, methodData, staticRawFile.FileName, retentionTimes, Index, peakData, precursorScans, quantData);
}
if (parameters.ParseParams.Metrics)
{
MetricsWriter.WriteMatrix(rawMetrics, null, staticRawFile.FileName, parameters.ParseParams.OutputDirectory);
}
if (parameters.ParseParams.Parse | parameters.ParseParams.Quant)
{
string matrixFileName = ReadWrite.GetPathToFile(parameters.ParseParams.OutputDirectory, staticRawFile.FileName, "_Matrix.txt");
/*
* ParseWriter writerDDA = new ParseWriter(matrixFileName, centroidStreams, segmentScans, metaData, retentionTimes,
* precursorMasses, precursorScans, peakData, trailerExtras, Index, quantData);
* writerDDA.WriteMatrixDDA(methodData.AnalysisOrder);
*/
MatrixWriter.ParseQuantDDA(matrixFileName, centroidStreams, segmentScans, metaData, retentionTimes,
precursorMasses, precursorScans, peakData, trailerExtras, Index, quantData);
}
if (parameters.ParseParams.WriteMgf)
{
//ParseWriter writerMGF = new ParseWriter(centroidStreams, segmentScans, parameters, retentionTimes, precursorMasses, precursorScans, trailerExtras, methodData, Index);
//writerMGF.WriteMGF(staticRawFile.FileName);
MgfWriter.WriteMGF(staticRawFile.FileName, centroidStreams, segmentScans, parameters, retentionTimes, precursorMasses, precursorScans, trailerExtras, methodData, Index);
}
if (parameters.ParseParams.Chromatogram != null)
{
ChromatogramWriter.WriteChromatogram(centroidStreams, segmentScans, retentionTimes, methodData, Index, parameters, staticRawFile.FileName);
}
if (parameters.QcParams.QcDirectory != null)
{
qcDataCollection = QC.QcWorkflow.LoadOrCreateQcCollection(parameters);
SearchMetricsContainer searchMetrics = new SearchMetricsContainer(staticRawFile.FileName, staticRawFile.CreationDate, methodData);
// check if the raw file already exists in the QC data with a different name
if (QcWorkflow.CheckIfFilePresentInQcCollection(staticRawFile.FileName, qcDataCollection))
{
Log.Information("A file with the same creation date and time as {File} already exists in the QC data", staticRawFile.FileName);
Console.WriteLine("A file with the same creation date and time as {File} already exists in the QC data. Skipping to next file.",
staticRawFile.FileName);
}
else
{
if (parameters.QcParams.PerformSearch)
{
Search.WriteSearchMGF(parameters, centroidStreams, segmentScans, retentionTimes, precursorMasses, precursorScans, trailerExtras, methodData,
Index, staticRawFile.FileName, parameters.QcParams.FixedScans);
Search.RunSearch(parameters, methodData, staticRawFile.FileName);
searchMetrics = SearchQC.ParseSearchResults(searchMetrics, parameters, staticRawFile.FileName, nScans);
}
QcDataContainer qcData = new QcDataContainer();
qcData.DDA = rawMetrics;
qcData.SearchMetrics = searchMetrics;
QC.QcWorkflow.UpdateQcCollection(qcDataCollection, qcData, methodData, staticRawFile.FileName);
}
}
}
public static void ParseDDA(IRawFileThreadManager rawFileThreadManager, WorkflowParameters parameters)
{
MethodDataContainer methodData;
CentroidStreamCollection centroidStreams;
SegmentScanCollection segmentScans;
TrailerExtraCollection trailerExtras;
PrecursorMassCollection precursorMasses;
RetentionTimeCollection retentionTimes;
ScanEventReactionCollection reactions;
ScanMetaDataCollectionDDA metaData = null;
PrecursorPeakCollection peakData = null;
RawMetricsDataDDA rawMetrics = null;
QuantDataCollection quantData = null;
var staticRawFile = rawFileThreadManager.CreateThreadAccessor();
staticRawFile.SelectInstrument(Device.MS, 1);
//staticRawFile.CheckIfBoxcar();
(ScanIndex Index, PrecursorScanCollection precursorScans, ScanDependentsCollections scanDependents) =
Extract.ScanIndicesPrecursorsDependents(rawFileThreadManager);
using (var rawFile = rawFileThreadManager.CreateThreadAccessor())
{
reactions = Extract.ScanEvents(rawFile, Index);
methodData = Extract.MethodData(rawFile, Index);
(centroidStreams, segmentScans) = Extract.MsData(rawFile: rawFile, index: Index);
trailerExtras = Extract.TrailerExtras(rawFile, Index);
precursorMasses = Extract.PrecursorMasses(rawFile, precursorScans, trailerExtras, Index);
retentionTimes = Extract.RetentionTimes(rawFile, Index);
}
if (parameters.ParseParams.Parse | parameters.ParseParams.Quant | parameters.ParseParams.Metrics | parameters.RefineMassCharge)
{
peakData = AnalyzePeaks.AnalyzeAllPeaks(centroidStreams, retentionTimes, precursorMasses, precursorScans, Index);
if (parameters.RefineMassCharge)
{
MonoIsoPredictor.RefineMonoIsoMassChargeValues(centroidStreams, precursorMasses, trailerExtras, peakData, precursorScans);
}
metaData = MetaDataProcessingDDA.AggregateMetaDataDDA(centroidStreams, segmentScans, methodData, precursorScans,
trailerExtras, precursorMasses, retentionTimes, scanDependents, reactions, Index);
}
if (parameters.ParseParams.Quant)
{
quantData = Quantification.Quantify(centroidStreams, segmentScans, parameters, methodData, Index);
}
if (parameters.ParseParams.Metrics)
{
rawMetrics = MetaDataProcessingDDA.GetMetricsDataDDA(metaData, methodData, staticRawFile.FileName, retentionTimes, Index, peakData, precursorScans, quantData);
MetricsWriter.WriteMatrix(rawMetrics, null, staticRawFile.FileName, parameters.ParseParams.OutputDirectory);
}
if (parameters.ParseParams.Parse | parameters.ParseParams.Quant)
{
string matrixFileName = ReadWrite.GetPathToFile(parameters.ParseParams.OutputDirectory, staticRawFile.FileName, "_Matrix.txt");
/*
* ParseWriter writerDDA = new ParseWriter(matrixFileName, centroidStreams, segmentScans, metaData, retentionTimes,
* precursorMasses, precursorScans, peakData, trailerExtras, Index, quantData);
* writerDDA.WriteMatrixDDA(methodData.AnalysisOrder);
*/
MatrixWriter.ParseQuantDDA(matrixFileName, centroidStreams, segmentScans, metaData, retentionTimes,
precursorMasses, precursorScans, peakData, trailerExtras, Index, quantData);
}
if (parameters.ParseParams.WriteMgf)
{
//ParseWriter writerMGF = new ParseWriter(centroidStreams, segmentScans, parameters, retentionTimes, precursorMasses, precursorScans, trailerExtras, methodData, Index);
//writerMGF.WriteMGF(staticRawFile.FileName);
MgfWriter.WriteMGF(staticRawFile.FileName, centroidStreams, segmentScans, parameters, retentionTimes, precursorMasses, precursorScans, trailerExtras, methodData, Index);
}
if (parameters.ParseParams.Chromatogram != null)
{
ChromatogramWriter.WriteChromatogram(centroidStreams, segmentScans, retentionTimes, methodData, Index, parameters, staticRawFile.FileName);
}
}
