001/* 002 * $Id$ 003 */ 004 005package edu.jas.ufd; 006 007 008import java.util.SortedMap; 009 010import junit.framework.Test; 011import junit.framework.TestCase; 012import junit.framework.TestSuite; 013 014import edu.jas.arith.BigRational; 015import edu.jas.kern.ComputerThreads; 016import edu.jas.poly.AlgebraicNumber; 017import edu.jas.poly.AlgebraicNumberRing; 018import edu.jas.poly.GenPolynomial; 019import edu.jas.poly.GenPolynomialRing; 020import edu.jas.poly.TermOrder; 021 022 023/** 024 * Factor algebraic tests with JUnit. 025 * @author Heinz Kredel 026 */ 027 028public class FactorAlgebraicTest extends TestCase { 029 030 031 /** 032 * main. 033 */ 034 public static void main(String[] args) { 035 junit.textui.TestRunner.run(suite()); 036 } 037 038 039 /** 040 * Constructs a <CODE>FactorAlgebraicTest</CODE> object. 041 * @param name String. 042 */ 043 public FactorAlgebraicTest(String name) { 044 super(name); 045 } 046 047 048 /** 049 */ 050 public static Test suite() { 051 TestSuite suite = new TestSuite(FactorAlgebraicTest.class); 052 return suite; 053 } 054 055 056 int rl = 3; 057 058 059 int kl = 5; 060 061 062 int ll = 5; 063 064 065 int el = 3; 066 067 068 float q = 0.3f; 069 070 071 @Override 072 protected void setUp() { 073 } 074 075 076 @Override 077 protected void tearDown() { 078 ComputerThreads.terminate(); 079 } 080 081 082 /** 083 * Test dummy for Junit. 084 * 085 */ 086 public void testDummy() { 087 } 088 089 090 /** 091 * Test algebraic factorization. 092 * 093 */ 094 public void testAlgebraicFactorization() { 095 096 TermOrder to = new TermOrder(TermOrder.INVLEX); 097 BigRational cfac = new BigRational(1); 098 String[] alpha = new String[] { "alpha" }; 099 String[] vars = new String[] { "z" }; 100 GenPolynomialRing<BigRational> pfac = new GenPolynomialRing<BigRational>(cfac, 1, to, alpha); 101 GenPolynomial<BigRational> agen = pfac.univariate(0, 2); 102 agen = agen.sum(pfac.getONE()); // x^2 + 1 103 AlgebraicNumberRing<BigRational> afac = new AlgebraicNumberRing<BigRational>(agen, true); 104 GenPolynomialRing<AlgebraicNumber<BigRational>> apfac = new GenPolynomialRing<AlgebraicNumber<BigRational>>( 105 afac, 1, to, vars); // univariate 106 107 //System.out.println("agen = " + agen); 108 //System.out.println("afac = " + afac); 109 //System.out.println("apfac = " + apfac); 110 111 FactorAlgebraic<BigRational> fac = new FactorAlgebraic<BigRational>(afac); 112 113 for (int i = 1; i < 2; i++) { 114 int facs = 0; 115 GenPolynomial<AlgebraicNumber<BigRational>> a; 116 GenPolynomial<AlgebraicNumber<BigRational>> c = apfac.random(2, ll + i, el + i, q); 117 //a = a.monic(); 118 GenPolynomial<AlgebraicNumber<BigRational>> b = apfac.random(2, ll + i, el + i, q); 119 if (b.degree() == 0) { 120 b = b.multiply(apfac.univariate(0)); 121 } 122 //b = b.monic(); 123 //if ( false && ! a.leadingBaseCoefficient().isONE() ) { 124 //continue; 125 //ExpVector e = a.leadingExpVector(); 126 //a.doPutToMap(e,cfac.getONE()); 127 //} 128 if (c.degree() > 0) { 129 facs++; 130 } 131 if (b.degree() > 0) { 132 facs++; 133 } 134 //a = apfac.univariate(0,2).sum( apfac.getONE() ); // x^2 + 1 135 //a = a.multiply(a); 136 //a = a.multiply( apfac.univariate(0,2).subtract( apfac.getONE() ) ); // x^2 - 1 137 //a = apfac.univariate(0,3).subtract( apfac.getONE() ); // x^3 - 1 138 //a = apfac.univariate(0,3).sum( apfac.getONE() ); // x^3 + 1 139 a = c.multiply(b); 140 //a = a.monic(); 141 //System.out.println("\na = " + a); 142 //System.out.println("b = " + b.monic()); 143 //System.out.println("c = " + c.monic()); 144 145 SortedMap<GenPolynomial<AlgebraicNumber<BigRational>>, Long> sm = fac.baseFactors(a); 146 //System.out.println("\na = " + a); 147 //System.out.println("sm = " + sm); 148 if (sm.size() >= facs) { 149 assertTrue("#facs < " + facs, sm.size() >= facs); 150 } else { 151 System.out.println("sm.size() < facs = " + facs); 152 } 153 boolean t = fac.isFactorization(a, sm); 154 //System.out.println("t = " + t); 155 assertTrue("prod(factor(a)) = a", t); 156 } 157 } 158 159}