public TFrac(TNumber a, TNumber b) { try { if (a < 0 && b < 0) { a *= -1; b *= -1; } else if (b < 0 && a > 0) { b *= -1; a *= -1; } else if (a == 0 && b == 0 || b == 0 || a == 0 && b == 1) { Numerator = new TNumber(0); Denominator = new TNumber(1); return; } Numerator = new TNumber(a); Denominator = new TNumber(b); long gcdResult = GCD((long)a.Number, (long)b.Number); if (gcdResult > 1) { Numerator /= gcdResult; Denominator /= gcdResult; } } catch { throw new OverflowException(); } }
public TFrac(int a, int b) { if (a < 0 && b < 0) { a *= -1; b *= -1; } else if (b < 0 && a > 0) { b *= -1; a *= -1; } else if (a == 0 && b == 0 || b == 0 || a == 0 && b == 1) { Numerator = new TNumber(0); Denominator = new TNumber(1); return; } Numerator = new TNumber(a); Denominator = new TNumber(b); long gcdResult = GCD(a, b); if (gcdResult > 1) { Numerator /= gcdResult; Denominator /= gcdResult; } }
public override void SetString(string str) { TFrac TempFrac = new TFrac(str); Numerator = TempFrac.Numerator; Denominator = TempFrac.Denominator; }
public override void SetString(string str) { TComplex temp = new TComplex(str); Real = temp.Real; Imaginary = temp.Imaginary; }
public TComplex(string str) { Regex FullNumber = new Regex(@"^-?(\d+.?\d*)\s+\+\s+i\s+\*\s+-?(\d+.?\d*)$"); Regex LeftPart = new Regex(@"^-?(\d+.?\d*)(\s+\+\s+i\s+\*\s+)?$"); if (FullNumber.IsMatch(str)) { List <string> Parts = str.Split(new string[] { Separator }, StringSplitOptions.None).ToList(); Real = new TNumber(Parts[0]); Imaginary = new TNumber(Parts[1]); } else if (LeftPart.IsMatch(str)) { if (str.Contains(Separator)) { str = str.Replace(Separator, string.Empty); } Real = new TNumber(str); Imaginary = new TNumber(); } else { Real = new TNumber(0); Imaginary = new TNumber(0); } }
public TPNumber(string str, TNumber not, TNumber pre) { Notation = not; Precision = pre; try { Number = new TNumber(Conver_p_10.dval(str, Convert.ToInt32(not.Number))); } catch { throw new System.OverflowException(); } }
public TPNumber(string str, int not, int pre) { try { Number = new TNumber(Conver_p_10.dval(str, not)); Notation = new TNumber(not); Precision = new TNumber(pre); } catch { throw new System.OverflowException(); } }
public PNumberEditor(string str, TNumber not, TNumber pre) { if (not < 2 || not > 16 || pre < 0 || pre > 10) { number = "0"; Notation = new TNumber(10); Precision = new TNumber(5); } else { Notation = not; Precision = pre; number = new TPNumber(str, Notation, Precision).ToString(); } }
public PNumberEditor(double num, TNumber not, TNumber pre) { if (not < 2 || not > 16 || pre < 0 || pre > 10) { number = "0"; Notation = new TNumber(10); Precision = new TNumber(5); } else { Notation = not; Precision = pre; number = new TPNumber(num, Convert.ToInt32(Notation.Number), Convert.ToInt32(Precision.Number)).ToString();; } }
public TPNumber(TNumber num, TNumber not, TNumber pre) { if (not < 2 || not > 16 || pre < 0 || pre > 10) { Number = new TNumber(); Notation = new TNumber(10); Precision = new TNumber(5); } else { Number = new TNumber(num); Notation = new TNumber(not); Precision = new TNumber(pre); } }
public PNumberEditor(double num, int not, int pre) { if (not < 2 || not > 16 || pre < 0 || pre > 10) { number = "0"; Notation = new TNumber(10); Precision = new TNumber(5); } else { Notation = new TNumber(not); Precision = new TNumber(pre); number = TPNumber.Conver_10_p.Do(num, not, pre); } }
public TPNumber(double num, int not, int pre) { if (not < 2 || not > 16 || pre < 0 || pre > 10) { Number = new TNumber(); Notation = new TNumber(10); Precision = new TNumber(5); } else { Number = new TNumber(num); Notation = new TNumber(not); Precision = new TNumber(pre); } }
public TFrac(string fraction) { Regex FracRegex = new Regex(@"^-?(\d+)/(\d+)$"); Regex NumberRegex = new Regex(@"^-?\d+/?$"); if (FracRegex.IsMatch(fraction)) { List <string> FracParts = fraction.Split('/').ToList(); Numerator = new TNumber(FracParts[0]); Denominator = new TNumber(FracParts[1]); if (Denominator.IsZero()) { Numerator = new TNumber(0); Denominator = new TNumber(1); return; } long gcdResult = GCD((long)Numerator.Number, (long)Denominator.Number); if (gcdResult > 1) { Numerator /= gcdResult; Denominator /= gcdResult; } return; } else if (NumberRegex.IsMatch(fraction)) { Numerator = new TNumber(fraction); Denominator = new TNumber(1); return; } else { Numerator = new TNumber(0); Denominator = new TNumber(1); return; } }
public TComplex(TNumber anReal, TNumber anImaginary) { Real = anReal; Imaginary = anImaginary; }
public TComplex(int anReal, int anImaginary) { Real = new TNumber(anReal); Imaginary = new TNumber(anImaginary); }
public TComplex(double anReal, double anImaginary) { Real = new TNumber(anReal); Imaginary = new TNumber(anImaginary); }
public TComplex() { Real = new TNumber(0); Imaginary = new TNumber(0); }
public TPNumber() { Number = new TNumber(); Notation = new TNumber(10); Precision = new TNumber(5); }
public PNumberEditor(string str) { Notation = new TNumber(10); Precision = new TNumber(5); number = new TPNumber(str, Notation, Precision).ToString(); }
public TComplex(TComplex anotherComplex) { Real = anotherComplex.Real; Imaginary = anotherComplex.Imaginary; }
public PNumberEditor() { number = "0"; Notation = new TNumber(10); Precision = new TNumber(5); }
public TFrac(TFrac anotherFrac) { Numerator = anotherFrac.Numerator; Denominator = anotherFrac.Denominator; }
public TFrac() { Numerator = new TNumber(0); Denominator = new TNumber(1); }
public TPNumber(TPNumber anotherTPNumber) { Number = anotherTPNumber.Number; Notation = anotherTPNumber.Notation; Precision = anotherTPNumber.Precision; }
public TNumber(TNumber num) { Number = num.Number; }
public override void SetString(string str) { Number = new TNumber(Conver_p_10.dval(str, Convert.ToInt32(Notation.Number))); }