public override void Solve()
{
base.Solve();
Results.Add(new ArrayBoxModel <Fraction>($"Input (Using #{Method})", _matrix));
switch (_method)
{
case LinearSolverMethod.Gauss:
case LinearSolverMethod.GaussMain:
Results.AddRange(
GaussSolver.GaussSolution(_matrix, _method == LinearSolverMethod.GaussMain)
);
break;
case LinearSolverMethod.SimpleIterations:
case LinearSolverMethod.Seidel:
Results.AddRange(
IterationsSolver.Solve(_matrix, Precision, _method == LinearSolverMethod.Seidel)
);
break;
default:
Results.Add(new BoxModel("Not implemented method", $"Method {_method} is not implemented."));
break;
}
}
private static void AnalyzeSamples(int n, int k, int d, Polynomial h, params AnalyzingSample[] samples)
{
var linearSystemsSolver = new GaussSolver();
var generatingPolynomialBuilder = new LiftingSchemeBasedBuilder(new GcdBasedBuilder(new RecursiveGcdFinder()),
linearSystemsSolver);
var decoder =
new GsBasedDecoder(
new GsDecoder(new KotterAlgorithmBasedBuilder(new PascalsTriangleBasedCalcualtor()),
new RrFactorizator()),
linearSystemsSolver)
{
TelemetryCollector = new GsBasedDecoderTelemetryCollectorForGsBasedDecoder()
};
var generatingPolynomial = generatingPolynomialBuilder.Build(n, d, h);
_logger.LogInformation("Generating polynomial was restored");
_logger.LogInformation("Samples analysis was started");
Parallel.ForEach(samples,
new ParallelOptions {
MaxDegreeOfParallelism = Math.Min((int)(Environment.ProcessorCount * 1.5d), samples.Length)
},
x => PlaceNoiseIntoSamplesAndDecodeWrapperForParallelRunning(x, n, k, d, generatingPolynomial, decoder));
}
//=== solve button
private void ButtonSolve_Click(object sender, EventArgs e)
{
precision = Convert.ToInt32(textBoxPrecision.Text);
GaussSolver gs = new GaussSolver();
string[] solution = gs.Solve(precision);
answer_form = new Answer(solution);
answer_form.ShowDialog();
SaveMatrix("result.txt");
}
static StandardCodesFactoryTests()
{
var gaussSolver = new GaussSolver();
CodesFactory
= new StandardCodesFactory(
new LiftingSchemeBasedBuilder(new GcdBasedBuilder(new RecursiveGcdFinder()), gaussSolver),
new RsBasedDecoder(new BerlekampWelchDecoder(gaussSolver), gaussSolver),
new GsBasedDecoder(
new GsDecoder(new KotterAlgorithmBasedBuilder(new PascalsTriangleBasedCalcualtor()), new RrFactorizator()),
gaussSolver
)
);
}
static LinearCodeDistanceAnalyzerTests()
{
var gaussSolver = new GaussSolver();
var codesFactory
= new StandardCodesFactory(
new LiftingSchemeBasedBuilder(new GcdBasedBuilder(new RecursiveGcdFinder()), gaussSolver),
new RsBasedDecoder(new BerlekampWelchDecoder(gaussSolver), gaussSolver),
new GsBasedDecoder(
new GsDecoder(new KotterAlgorithmBasedBuilder(new PascalsTriangleBasedCalcualtor()), new RrFactorizator()),
gaussSolver
)
);
var wN7K3D4 = codesFactory.CreateN7K3D4();
var wN8K4D4First = new WaveletCode(8, 4, 4, new Polynomial(new PrimePowerOrderField(9), 2, 0, 1, 2, 1, 1));
var wN8K4D4Second = new WaveletCode(8, 4, 4, new Polynomial(new PrimePowerOrderField(9), 2, 2, 1, 2, 0, 1));
CodeDistanceAnalyzysTestCases
= new TheoryData <CodeDistanceAnalyzerTestCase>
{
new CodeDistanceAnalyzerTestCase
{
Field = wN7K3D4.Field,
InformationWordLength = wN7K3D4.InformationWordLength,
EncodingProcedure = x => wN7K3D4.Encode(x.Select(value => wN7K3D4.Field.CreateElement(value)).ToArray()),
ExpectedCodeDistance = wN7K3D4.CodeDistance
},
new CodeDistanceAnalyzerTestCase
{
Field = wN8K4D4First.Field,
InformationWordLength = wN8K4D4First.InformationWordLength,
EncodingProcedure = x => wN8K4D4First.Encode(x.Select(value => wN8K4D4First.Field.CreateElement(value)).ToArray()),
ExpectedCodeDistance = wN8K4D4First.CodeDistance
},
new CodeDistanceAnalyzerTestCase
{
Field = wN8K4D4Second.Field,
InformationWordLength = wN8K4D4Second.InformationWordLength,
EncodingProcedure = x => wN8K4D4Second.Encode(x.Select(value => wN8K4D4Second.Field.CreateElement(value)).ToArray()),
ExpectedCodeDistance = wN8K4D4Second.CodeDistance
}
};
}
static Program()
{
var configuration = new ConfigurationBuilder()
.AddJsonFile("appsettings.json")
.Build();
var loggerFactory = new LoggerFactory()
.AddSerilog(
new LoggerConfiguration()
.ReadFrom.Configuration(configuration)
.Enrich.FromLogContext()
.Enrich.WithProperty("Version", Assembly.GetEntryAssembly().GetName().Version.ToString(4))
.CreateLogger()
);
Logger = loggerFactory.CreateLogger <Program>();
NoiseGenerator = new RecursiveGenerator();
WordsComparer = new FieldElementsArraysComparer();
LinearCodeDistanceAnalyzer = new LinearCodeDistanceAnalyzer(loggerFactory.CreateLogger <LinearCodeDistanceAnalyzer>());
MinimalSphereCoveringAnalyzer = new MinimalSphereCoveringAnalyzer(NoiseGenerator, loggerFactory.CreateLogger <MinimalSphereCoveringAnalyzer>());
ListsSizesDistributionAnalyzer = new ListsSizesDistributionAnalyzer(NoiseGenerator, loggerFactory.CreateLogger <ListsSizesDistributionAnalyzer>());
var gaussSolver = new GaussSolver();
TelemetryCollector = new GsBasedDecoderTelemetryCollectorForGsBasedDecoder();
FixedDistanceCodesFactory
= new StandardCodesFactory(
new LiftingSchemeBasedBuilder(new GcdBasedBuilder(new RecursiveGcdFinder()), gaussSolver),
new RsBasedDecoder(new BerlekampWelchDecoder(gaussSolver), gaussSolver),
new GsBasedDecoder(
new GsDecoder(new KotterAlgorithmBasedBuilder(new PascalsTriangleBasedCalculator()), new RrFactorizator()),
gaussSolver
)
{
TelemetryCollector = TelemetryCollector
}
);
}
public RsBasedDecoderTests()
{
var linearSystemSolver = new GaussSolver();
_decoder = new RsBasedDecoder(new BerlekampWelchDecoder(linearSystemSolver), linearSystemSolver);
}
private static void AnalyzeCode(int n, int k, int d, Polynomial h,
int?placedErrorsCount = null, int?minCorrectValuesCount = null,
int?samplesCount = null, int?decodingThreadsCount = null)
{
var maxErrorsCount = (int)Math.Floor(n - Math.Sqrt(n * (n - d)));
var errorsCount = placedErrorsCount ?? maxErrorsCount;
if (errorsCount > maxErrorsCount)
{
throw new ArgumentException("Errors count is too large");
}
if (errorsCount < d - maxErrorsCount)
{
throw new ArgumentException("Errors count is too small");
}
var correctValuesCount = minCorrectValuesCount ?? n - errorsCount;
if (correctValuesCount * correctValuesCount <= n * (n - d))
{
throw new ArgumentException("Correct values count is too small for decoding");
}
if (correctValuesCount > n - errorsCount)
{
throw new ArgumentException("Correct values count can't be larger than " + (n - errorsCount).ToString() + " for errors count " + errorsCount.ToString());
}
if (correctValuesCount >= n - (d - 1) / 2)
{
throw new ArgumentException("List size will be always equal to 1");
}
var linearSystemsSolver = new GaussSolver();
var generatingPolynomialBuilder = new LiftingSchemeBasedBuilder(new GcdBasedBuilder(new RecursiveGcdFinder()),
linearSystemsSolver);
var decoder =
new GsBasedDecoder(
new GsDecoder(new KotterAlgorithmBasedBuilder(new PascalsTriangleBasedCalcualtor()),
new RrFactorizator()),
linearSystemsSolver)
{
TelemetryCollector = new GsBasedDecoderTelemetryCollectorForGsBasedDecoder()
};
var generatingPolynomial = generatingPolynomialBuilder.Build(n, d, h);
_logger.LogInformation("Start samples generation");
var samplesGenerationTimer = Stopwatch.StartNew();
var samples = GenerateSamples(n, k, generatingPolynomial, samplesCount).ToArray();
samplesGenerationTimer.Stop();
_logger.LogInformation("Samples were generated in {0} seconds", samplesGenerationTimer.Elapsed.TotalSeconds);
_logger.LogInformation("Start errors positions generation");
var errorsPositionsGenerationTimer = Stopwatch.StartNew();
var errorsPositions = GenerateErrorsPositions(n, errorsCount).ToArray();
errorsPositionsGenerationTimer.Stop();
_logger.LogInformation("Errors positions were generated in {0} seconds", errorsPositionsGenerationTimer.Elapsed.TotalSeconds);
_logger.LogInformation("Start noise decoding");
var noiseGenerationTimer = Stopwatch.StartNew();
samples = samples.SelectMany(x => errorsPositions.Select(y =>
new AnalyzingSample(x)
{
ErrorPositions = y,
CurrentNoiseValue = Enumerable.Repeat(1, errorsCount).ToArray(),
CorrectValuesCount = correctValuesCount
}))
.ToArray();
Parallel.ForEach(samples,
new ParallelOptions {
MaxDegreeOfParallelism = decodingThreadsCount ?? (int)(Environment.ProcessorCount * 1.5d)
},
x => PlaceNoiseIntoSamplesAndDecodeWrapperForParallelRunning(x, n, k, d, generatingPolynomial, decoder));
noiseGenerationTimer.Stop();
_logger.LogInformation("Noise decoding was performed in {0} seconds", noiseGenerationTimer.Elapsed.TotalSeconds);
}
