private void SetWeatherValuesToTable(DataColumn[] dataWeatherColumns, DataTable weatherDataSource, int dataRowCounter, int rowCounter) { double windVector10 = 0; double windVector50 = 0; WeatherCalculator weatherCalculator = new WeatherCalculator(); for (int i = 0; i < dataWeatherColumns.Count(); i++) { switch (i) { case 0: dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = Math.Round((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2] / 100, 3); break; case 1: dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = Math.Round((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2] * 1000, 3); break; case 2: dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = Math.Round((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2] - 273.15, 3); break; case 3: dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = Math.Round(weatherCalculator.CalculateVectorSpeed((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2], (double)weatherDataSource.Rows[rowCounter].ItemArray[i + 3]), 3); break; case 4: windVector10 = Math.Round(rbAzimuthVector.Checked ? weatherCalculator.CalculateWindVector((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 1], (double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2]) : weatherCalculator.CalculateWindVector(-(double)weatherDataSource.Rows[rowCounter].ItemArray[i + 1], -(double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2]), 3); if (windVector10 >= 0) { dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = windVector10; } else { dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = windVector10 + 360; } break; case 5: dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = Math.Round(weatherCalculator.CalculateVectorSpeed((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2], (double)weatherDataSource.Rows[rowCounter].ItemArray[i + 3]), 3); break; case 6: windVector50 = Math.Round(rbAzimuthVector.Checked ? weatherCalculator.CalculateWindVector((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 1], (double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2]) : weatherCalculator.CalculateWindVector(-(double)weatherDataSource.Rows[rowCounter].ItemArray[i + 1], -(double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2]), 3); if (windVector50 >= 0) { dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = windVector50; } else { dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = windVector50 + 360; } break; default: dgvMeasurementResults.Rows[dataRowCounter].Cells[dataWeatherColumns[i].ColumnName].Value = Math.Round((double)weatherDataSource.Rows[rowCounter].ItemArray[i + 2], 3); break; } } }
public void ShouldReturnSuccessWhenFerengiCalculatorIsValid() { using (WeatherCalculator _weatherCalculator = new WeatherCalculator()) { //[0,1,2,3,4,5] var ferengiVelocity = 1; var index = 3; var position = _weatherCalculator.CalculePosition(index, ferengiVelocity); Assert.Equal(3, position); } }
public void ShoulReturnSuccessWhenBetasoideCalculatorIsValid() { using (WeatherCalculator _weatherCalculator = new WeatherCalculator()) { //[0,3,6,9,12] var betasoideVelocity = 3; var index = 4; var position = _weatherCalculator.CalculePosition(index, betasoideVelocity); Assert.Equal(12, position); } }
public void ShouldReturnSuccessWhenVolcanoCalculatorIsValid() { using (WeatherCalculator _weatherCalculator = new WeatherCalculator()) { //[0,5,10,15,20,25] var volcanoVelocity = 5; var index = 5; var position = _weatherCalculator.CalculePosition(index, volcanoVelocity); Assert.Equal(25, position); } }
public string Clima(int dia) { Console.WriteLine("clima"); var k = new WeatherCalculator.MaxRain(); var result = new WeatherCalculator.dayData { dia = dia, clima = WeatherCalculator.GetWeather(dia, ref k) }; return(JsonConvert.SerializeObject(result)); }
public void ShouldReturnSuccessWhenWeatherIsValid() { using (WeatherCalculator _weatherCalculator = new WeatherCalculator()) { var handler = new WeatherHandler(new FakeWeatherRepository(), _weatherCalculator); var command = new NewWeatherCommand() { Type = Domain.VolcanoContext.Enums.WeatherType.Lluvia, Description = "Test", Date = DateTime.Now, PlanetPosition = 40 }; handler.Handle(command); Assert.True(command.IsValid()); } }
public dynamic Report() { Console.WriteLine("Report"); return(WeatherCalculator.GetNextTenYearsReport()); }
private DataRow SetDataRowWithValues(DataRow dataRow, string[] values, bool isFirstFile = false) { double windVector10 = 0; double windVector50 = 0; WeatherCalculator weatherCalculator = new WeatherCalculator(); for (int i = 0; i < values.Count(); i++) { switch (i) { case 0: string dateTimeString = values[i]; dataRow[i] = ConvertDateTime(dateTimeString); break; case 1: dataRow[i] = Math.Round(double.Parse(values[i]) / 100, 3); break; case 2: dataRow[i] = Math.Round(double.Parse(values[i]) * 1000, 3); break; case 3: dataRow[i] = Math.Round(double.Parse(values[i]) - 273.15, 3); break; case 4: dataRow[i] = Math.Round(weatherCalculator.CalculateVectorSpeed(double.Parse(values[i]), double.Parse(values[i + 1])), 3); break; case 5: windVector10 = Math.Round(rbAzimuthVector.Checked ? weatherCalculator.CalculateWindVector(double.Parse(values[i - 1]), double.Parse(values[i])) : weatherCalculator.CalculateWindVector(-double.Parse(values[i - 1]), -double.Parse(values[i])), 3); if (windVector10 >= 0) { dataRow[i] = windVector10; } else { dataRow[i] = windVector10 + 360; } break; case 6: double windSpeed = Math.Round(weatherCalculator.CalculateVectorSpeed(double.Parse(values[i]), double.Parse(values[i + 1])), 3); dataRow[i] = windSpeed; if (cbSpeedAndPower.Checked) { dataRow[i + 2] = weatherCalculator.CalculateWindSpeedByHeight((double)nudHx.Value, windSpeed, (double)nudAlpha.Value, 50); dataRow[i + 3] = weatherCalculator.ConversionOfWindSpeedIntoPower(windSpeed, (double)nudPr.Value, (double)nudVci.Value, (double)nudVr.Value, (double)nudVco.Value); } break; case 7: windVector50 = Math.Round(rbAzimuthVector.Checked ? weatherCalculator.CalculateWindVector(double.Parse(values[i - 1]), double.Parse(values[i])) : weatherCalculator.CalculateWindVector(-double.Parse(values[i - 1]), -double.Parse(values[i])), 3); if (windVector50 >= 0) { dataRow[i] = windVector50; } else { dataRow[i] = windVector50 + 360; } break; } } return(dataRow); }