public CauchyDistribution(double a, double mu, int samplemingLenght) { this._a = a; this._mu = mu; this._samplingLength = samplemingLenght; _unDistr = new UniformDistributions(-1, 1, _samplingLength); _unDistr.CalculateSampling(); r = new Random(); }
private void button1_Click(object sender, EventArgs e) { switch (_currentTab) { case 0: { //пока яд.ф тестирую только на гнормальном double mx = Double.Parse(mxTextBox.Text.Trim().Replace('.', ',')); double dx = Double.Parse(dxTextBox.Text.Trim().Replace('.', ',')); _samplingLenght = Int32.Parse(samplingLengthTextBox.Text.Trim()); GausianDistribution d = new GausianDistribution(mx, dx, _samplingLenght); EpanichnikovKernal epan = new EpanichnikovKernal(d); GaussianKernal g = new GaussianKernal(d); Triangular tr = new Triangular(d); _presenter.OnSetDistribution(d,tr); _intervalsCount = Int32.Parse(intervalsLengthTextBox.Text.Trim()); _presenter.OnGetBarChart(_intervalsCount);/*отправили в модель*/ _FP = mx; _SP = dx; break; } case 1: { double alpha = Double.Parse(alphaTetxBox.Text.Trim().Replace('.', ',')); double beta = Double.Parse(betaTextBox.Text.Trim().Replace('.', ',')); _samplingLenght = Int32.Parse(AmountVibTextBox.Text.Trim().Replace('.', ',')); VibrullDistribution vib = new VibrullDistribution(alpha, beta, _samplingLenght); GaussianKernal gk = new GaussianKernal(vib); _presenter.OnSetDistribution(vib,gk); _intervalsCount = Int32.Parse(VIntervalsLenghtTextBox.Text.Trim()); _presenter.OnGetBarChart(_intervalsCount); _FP = alpha; _SP = beta; break; } case 2: { double inten = Double.Parse(IntenTextBox.Text.Trim().Replace('.', ',')); _samplingLenght = Int32.Parse(ExponAmountSapmlingTextBox.Text.Trim()); ExponentialDistribution expon = new ExponentialDistribution(inten, _samplingLenght); GaussianKernal gk = new GaussianKernal(expon); _presenter.OnSetDistribution(expon, gk); _intervalsCount = Int32.Parse(ExpAmoubtIntervalsTextBox.Text.Trim()); _presenter.OnGetBarChart(_intervalsCount); _FP = inten; _SP = 0; break; } case 3: { double mu = Double.Parse(MutextBox.Text.Trim().Replace('.', ',')); double lambda = Convert.ToDouble(LambdatextBox.Text.Trim().Replace('.', ',')); _samplingLenght = Int32.Parse(VtextBox.Text.Trim()); LaplasDistribution laplas = new LaplasDistribution(mu, lambda, _samplingLenght); GaussianKernal gk = new GaussianKernal(laplas); _presenter.OnSetDistribution(laplas, gk); _intervalsCount = Int32.Parse(LAmountTextBox.Text.Trim()); _presenter.OnGetBarChart(_intervalsCount); _FP = mu; _SP = lambda; break; } case 4: { double a = Double.Parse(aUniformTextBox.Text.Trim().Replace('.', ',')); double b = Double.Parse(bUniformTextBox.Text.Trim().Replace('.', ',')); _samplingLenght = Int32.Parse(USLenghtTextBox.Text.Trim()); UniformDistributions uniforn = new UniformDistributions(a, b, _samplingLenght); GaussianKernal gk = new GaussianKernal(uniforn); _presenter.OnSetDistribution(uniforn, gk); _intervalsCount = Int32.Parse(CoolIntUniform.Text.Trim()); _presenter.OnGetBarChart(_intervalsCount); _FP = a; _SP = b; break; } case 5: { //double aC = Double.Parse(aCTextBox.Text.Trim().Replace('.', ',')); //double muC = Double.Parse(muCTextBox.Text.Trim().Replace('.', ',')); //_samplingLenght = Int32.Parse(VCTextBox.Text.Trim()); //CauchyDistribution c = new CauchyDistribution(aC, muC, _samplingLenght); //GaussianKernal gk = new GaussianKernal(c); //_presenter.OnSetDistribution(c,gk); //_intervalsCount = Int32.Parse(CCTextBox.Text.Trim()); //_presenter.OnGetBarChart(_intervalsCount); //_FP = aC; //_SP = muC; break; } } }