Beispiel #1
0
        protected override GCDResult PolyGCD(Polynomial g, out Polynomial gcd)
        {
            Polynomial f = this;
            GCDResult  A = new GCDResult(new Polynomial {
                1
            }, new Polynomial {
                0
            });
            GCDResult B = new GCDResult(new Polynomial {
                0
            }, new Polynomial {
                1
            });
            GCDResult  Temp;
            Polynomial a, b;

            if (f.degree > g.degree)
            {
                a = new Polynomial(f);
                b = new Polynomial(g);
            }
            else
            {
                a = new Polynomial(g);
                b = new Polynomial(f);
            }
            while (!b.IsNull())
            {
                DividionResult divres = a / b;
                a    = b;
                b    = divres.Item2;
                Temp = new GCDResult(A - new GCDResult(B.Item1 * divres.Quotient, B.Item2 * divres.Quotient));
                A    = B;
                B    = Temp;
            }
            gcd = a;
            if (f.degree <= g.degree)
            {
                A = new GCDResult(A.Coef2, A.Coef1);
            }
            if (gcd[gcd.degree] < 0)
            {
                gcd = -gcd;
                return(new GCDResult(-A.Item1, -A.Item2));
            }
            return(new GCDResult(A.Item1, A.Item2));
        }
Beispiel #2
0
        protected override GCDResult PolyGCD(IntPolynomial g, out IntPolynomial gcd)
        {
            IntPolynomial f = this;
            GCDResult     A = new GCDResult(new IntPolynomial {
                1
            }, new IntPolynomial {
                0
            });
            GCDResult B = new GCDResult(new IntPolynomial {
                0
            }, new IntPolynomial {
                1
            });
            IntPolynomial a, b;

            if (f.degree > g.degree)
            {
                a = new IntPolynomial(f);
                b = new IntPolynomial(g);
            }
            else
            {
                a = new IntPolynomial(g);
                b = new IntPolynomial(f);
            }
            BigInteger CoeffReminder;

            while (!b.IsNull())
            {
                BigInteger     CurrentMultiplyCoeff = BigInteger.Pow(b[b.size - 1], (a.size - 1) - (b.size - 1) + 1);
                DividionResult divres = (a * CurrentMultiplyCoeff) / b;
                a             = b;
                CoeffReminder = divres.Item2.CoeffGCD();
                b             = divres.Item2 / CoeffReminder;
            }
            CoeffReminder = a.CoeffGCD();
            gcd           = a / CoeffReminder;
            if (gcd[gcd.size - 1] < 0)
            {
                gcd *= -1;
            }
            return(new GCDResult(A.Item1, A.Item2));
        }
Beispiel #3
0
        public static FullSolution SolveEquation(Polynomial f, Polynomial g, Polynomial c)
        {
            FullSolution solution = new FullSolution();

            //f=0; g=0; c=0 | c!=0
            if (f.IsNull() && g.IsNull())
            {
                if (c.IsNull())
                {
                    solution.zeroSolution        = new Solution(new Polynomial(), new Polynomial());
                    solution.solutionStep        = new Solution(null, null);
                    solution.areCoefsIndependent = true;
                }
                else
                {
                    solution.isDefined = false;
                }
                return(solution);
            }

            if (c.IsNull() && f.IsNull() != g.IsNull())
            {
                solution.zeroSolution = new Solution(new Polynomial(), new Polynomial());
                if (f.IsNull() && !g.IsNull())
                {
                    solution.solutionStep = new Solution(null, new Polynomial());
                }
                else if (!f.IsNull() && g.IsNull())
                {
                    solution.solutionStep = new Solution(new Polynomial(), null);
                }
                return(solution);
            }
            else if (f.IsNull() != g.IsNull())
            {
                if (f.IsNull())
                {
                    DividionResult divres = c / g;
                    if (!divres.Reminder.IsNull())
                    {
                        solution.isDefined = false;
                        return(solution);
                    }

                    solution.solutionStep = new Solution(null, new Polynomial {
                        0
                    });
                    solution.zeroSolution = new Solution(new Polynomial {
                        0
                    }, divres.Quotient);
                }
                else
                {
                    DividionResult divres = c / f;
                    if (!divres.Reminder.IsNull())
                    {
                        solution.isDefined = false;
                        return(solution);
                    }
                    solution.solutionStep = new Solution(new Polynomial {
                        0
                    }, null);
                    solution.zeroSolution = new Solution(divres.Quotient, new Polynomial {
                        0
                    });
                }

                return(solution);
            }

            Polynomial     gcd      = new Polynomial();
            GCDResult      expCoefs = GCD(f, g, out gcd);
            DividionResult tempX0   = (expCoefs.Coef1 * c / gcd);
            DividionResult tempY0   = (expCoefs.Coef2 * c / gcd);

            // К этому моменту f и g  не нулевые (ветвление для c)
            if (c.IsNull())
            {
                solution.zeroSolution = new Solution(new Polynomial(), new Polynomial());
                solution.solutionStep = new Solution((g / gcd).Quotient, -(f / gcd).Quotient);
            }
            else
            {
                if (tempX0.Reminder.IsNull() && tempY0.Reminder.IsNull())
                {
                    solution.zeroSolution = new Solution(tempX0.Quotient, tempY0.Quotient);
                    solution.solutionStep = new Solution((g / gcd).Quotient, -(f / gcd).Quotient);
                }
                else
                {
                    return(new FullSolution()
                    {
                        isDefined = false
                    });
                }
            }

            return(solution);
        }