/// <summary> /// internal function for negation /// </summary> private static Fraction Negate(Fraction frac1) { long iNumerator=-frac1.Numerator; long iDenominator=frac1.Denominator; return ( new Fraction(iNumerator, iDenominator) ); }
private static Fraction Multiply(Fraction frac1, Fraction frac2) { try { checked { long iNumerator=frac1.Numerator*frac2.Numerator; long iDenominator=frac1.Denominator*frac2.Denominator; return ( new Fraction(iNumerator, iDenominator) ); } } catch(OverflowException) { throw new FractionException("Overflow occurred while performing arithemetic operation"); } catch(Exception) { throw new FractionException("An error occurred while performing arithemetic operation"); } }
/// <summary> /// The function replicates current Fraction object /// </summary> public Fraction Duplicate() { Fraction frac=new Fraction(); frac.Numerator=Numerator; frac.Denominator=Denominator; return frac; }
/// <summary> /// The function takes a floating point number as an argument /// and returns its corresponding reduced fraction /// </summary> public static Fraction ToFraction(double dValue) { try { checked { Fraction frac; if (dValue%1==0) // if whole number { frac=new Fraction( (long) dValue ); } else { double dTemp=dValue; long iMultiple=1; string strTemp=dValue.ToString(); while ( strTemp.IndexOf("E")>0 ) // if in the form like 12E-9 { dTemp*=10; iMultiple*=10; strTemp=dTemp.ToString(); } int i=0; while ( strTemp[i]!='.' ) i++; int iDigitsAfterDecimal=strTemp.Length-i-1; while ( iDigitsAfterDecimal>0 ) { dTemp*=10; iMultiple*=10; iDigitsAfterDecimal--; } frac=new Fraction( (int)Math.Round(dTemp) , iMultiple ); } return frac; } } catch(OverflowException) { throw new FractionException("Conversion not possible due to overflow"); } catch(Exception) { throw new FractionException("Conversion not possible"); } }
/// <summary> /// The function reduces(simplifies) a Fraction object by dividing both its numerator /// and denominator by their GCD /// </summary> public static void ReduceFraction(Fraction frac) { try { if (frac.Numerator==0) { frac.Denominator=1; return; } long iGCD=GCD(frac.Numerator, frac.Denominator); frac.Numerator/=iGCD; frac.Denominator/=iGCD; if ( frac.Denominator<0 ) // if -ve sign in denominator { //pass -ve sign to numerator frac.Numerator*=-1; frac.Denominator*=-1; } } // end try catch(Exception exp) { throw new FractionException("Cannot reduce Fraction: " + exp.Message); } }
/// <summary> /// The function returns the inverse of a Fraction object /// </summary> public static Fraction Inverse(Fraction frac1) { if (frac1.Numerator==0) throw new FractionException("Operation not possible (Denominator cannot be assigned a ZERO Value)"); long iNumerator=frac1.Denominator; long iDenominator=frac1.Numerator; return ( new Fraction(iNumerator, iDenominator)); }