public static decimal PaymentFromAmount(decimal amountMonthly, Int32 timesheetHours, Int32 workingHours, Int32 absenceHours) { Int32 totalHours = TotalHoursForPayment(timesheetHours, workingHours, absenceHours); decimal payment = DecOperations.MultiplyAndDivide(totalHours, amountMonthly, timesheetHours); return(payment); }
public static Int32 NearRoundDown(decimal valueDec, Int32 nearest = 100) { decimal dividRet = DecOperations.Divide(valueDec, nearest); decimal multiRet = DecOperations.Multiply(RoundDown(dividRet), nearest); return(RoundToInt(multiRet)); }
public static decimal LimitToMinMax(decimal valueToMinMax, decimal minLimitTo, decimal maxLimitTo) { if (minLimitTo > valueToMinMax) { return(0m); } return(DecOperations.MaxDecValue(valueToMinMax, maxLimitTo)); }
private Int32 EmployeeContributionWithFactor(decimal generalBasis, decimal mandatoryEmpee, decimal compoundFactor) { decimal decimalResult1 = HealthOperations.DecFactorResult(mandatoryEmpee, compoundFactor); decimal decimalResult2 = HealthOperations.DecFactorResult(generalBasis, compoundFactor); decimal decimalResult3 = DecOperations.Divide(decimalResult2, 3); Int32 resultPaymentValue = HealthOperations.IntRoundUp(decimal.Add(decimalResult1, decimalResult3)); return(resultPaymentValue); }
private Int32 HealthIncreaseWithFactor(decimal taxableIncome, decimal compoundFactor) { decimal compoundPaymentValue = HealthCompoundIncreaseWithFactor(taxableIncome, compoundFactor); decimal employeePaymentValue = DecOperations.Divide(compoundPaymentValue, 3); Int32 resultCompoundValue = TaxingOperations.IntRoundUp(compoundPaymentValue); Int32 resultEmployeeValue = TaxingOperations.IntRoundUp(employeePaymentValue); Int32 resultPaymentValue = (resultCompoundValue - resultEmployeeValue); return(resultPaymentValue); }
public static decimal FactorizeAmount(decimal amount, decimal factor) { decimal result = DecOperations.Multiply(amount, factor); return(result); }
public static decimal DecFactorResult(decimal valueDec, decimal factor) { return(DecOperations.MultiplyAndDivide(valueDec, factor, 100m)); }
public static decimal MinMaxValue(decimal valueToMinMax, decimal accumulValue, decimal minLimitTo, decimal maxLimitTo) { return(DecOperations.MinIncMaxDecValue(valueToMinMax, accumulValue, minLimitTo, maxLimitTo)); }
public static decimal MaxValueAlign(decimal valueToMax, decimal accumulValue, decimal maxLimitTo) { return(DecOperations.MaxDecAccumValue(valueToMax, accumulValue, maxLimitTo)); }
public static decimal MinValueAlign(decimal valueToMin, decimal minLimitTo) { return(DecOperations.MinIncValue(valueToMin, minLimitTo)); }