test/jdk/java/math/BigDecimal/ZeroScalingTests.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2003, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 /*
  * @test
  * @bug 4902952 4905407 4916149 8057793
  * @summary Tests that the scale of zero is propagated properly and has the
  * proper effect and that setting the scale to zero does not mutate the
  * BigDecimal.
  * @author Joseph D. Darcy
  */

 import java.math.*;
 import java.util.*;

 public class ZeroScalingTests {

     static MathContext longEnough = new MathContext(50, RoundingMode.UNNECESSARY);

     static BigDecimal[]  zeros = new BigDecimal[23];
     static {
         for(int i = 0; i < 21; i++) {
             zeros[i] = new BigDecimal(BigInteger.ZERO, i-10);
         }
         zeros[21] = new BigDecimal(BigInteger.ZERO, Integer.MIN_VALUE);
         zeros[22] = new BigDecimal(BigInteger.ZERO, Integer.MAX_VALUE);
     }

     static BigDecimal element = BigDecimal.valueOf(100, -2);

     static MathContext contexts[] = {
         new MathContext(0, RoundingMode.UNNECESSARY),
         new MathContext(100, RoundingMode.UNNECESSARY),
         new MathContext(5, RoundingMode.UNNECESSARY),
         new MathContext(4, RoundingMode.UNNECESSARY),
         new MathContext(3, RoundingMode.UNNECESSARY),
         new MathContext(2, RoundingMode.UNNECESSARY),
         new MathContext(1, RoundingMode.UNNECESSARY),
     };


     static int addTests() {
         int failures = 0;

         for(BigDecimal zero1: zeros) {
             for(BigDecimal zero2: zeros) {
                 BigDecimal expected = new BigDecimal(BigInteger.ZERO,
                                                      Math.max(zero1.scale(), zero2.scale()));
                 BigDecimal result;

                 if(! (result=zero1.add(zero2)).equals(expected) ) {
                     failures++;
                     System.err.println("For classic exact add, expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero1.add(zero2, MathContext.UNLIMITED)).equals(expected) ) {
                     failures++;
                     System.err.println("For UNLIMITED math context add," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero1.add(zero2, longEnough)).equals(expected) ) {
                     failures++;
                     System.err.println("For longEnough math context add," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

             }
         }

         // Test effect of adding zero to a nonzero value.
         for (MathContext mc: contexts) {
             for (BigDecimal zero: zeros) {
                 if (Math.abs((long)zero.scale()) < 100 ) {

                     int preferredScale = Math.max(zero.scale(), element.scale());
                     if (mc.getPrecision() != 0) {
                         if (preferredScale < -4 )
                             preferredScale = -4;
                         else if (preferredScale > -(5 - mc.getPrecision())) {
                             preferredScale = -(5 - mc.getPrecision());
                         }
                     }


                     /*
                       System.err.println("\n    " + element + " +\t" + zero + " =\t" + result);

                       System.err.println("scales" + element.scale() + " \t" + zero.scale() +
                       "  \t " + result.scale() + "\t precison = " + mc.getPrecision());
                       System.err.println("expected scale = " + preferredScale);
                     */

                     BigDecimal result = element.add(zero, mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                     result = zero.add(element, mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                     result = element.negate().add(zero, mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element.negate()) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                     result = zero.add(element.negate(), mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element.negate()) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                 }
             }
         }

         return failures;
     }

     static int subtractTests() {
         int failures = 0;

         for(BigDecimal zero1: zeros) {
             for(BigDecimal zero2: zeros) {
                 BigDecimal expected = new BigDecimal(BigInteger.ZERO,
                                                      Math.max(zero1.scale(), zero2.scale()));
                 BigDecimal result;

                 if(! (result=zero1.subtract(zero2)).equals(expected) ) {
                     failures++;
                     System.err.println("For classic exact subtract, expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero1.subtract(zero2, MathContext.UNLIMITED)).equals(expected) ) {
                     failures++;
                     System.err.println("For UNLIMITED math context subtract," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero1.subtract(zero2, longEnough)).equals(expected) ) {
                     failures++;
                     System.err.println("For longEnough math context subtract," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

             }
         }


         // Test effect of adding zero to a nonzero value.
         for (MathContext mc: contexts) {
             for (BigDecimal zero: zeros) {
                 if (Math.abs((long)zero.scale()) < 100 ) {

                     int preferredScale = Math.max(zero.scale(), element.scale());
                     if (mc.getPrecision() != 0) {
                         if (preferredScale < -4 )
                             preferredScale = -4;
                         else if (preferredScale > -(5 - mc.getPrecision())) {
                             preferredScale = -(5 - mc.getPrecision());
                         }
                     }


                     /*
                       System.err.println("\n    " + element + " +\t" + zero + " =\t" + result);

                       System.err.println("scales" + element.scale() + " \t" + zero.scale() +
                       "  \t " + result.scale() + "\t precison = " + mc.getPrecision());
                       System.err.println("expected scale = " + preferredScale);
                     */

                     BigDecimal result = element.subtract(zero, mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                     result = zero.subtract(element, mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element.negate()) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                     result = element.negate().subtract(zero, mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element.negate()) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                     result = zero.subtract(element.negate(), mc);
                     if (result.scale() != preferredScale ||
                             result.compareTo(element) != 0) {
                         failures++;
                         System.err.println("Expected scale  " + preferredScale +
                                            " result scale was " + result.scale() +
                                            " ; value was " + result);
                     }

                 }
             }
         }

         return failures;
     }

     static int multiplyTests() {
         int failures = 0;

         BigDecimal ones[] = {
             BigDecimal.valueOf(1, 0),
             BigDecimal.valueOf(10, 1),
             BigDecimal.valueOf(1000, 3),
             BigDecimal.valueOf(100000000, 8),
         };

         List<BigDecimal> values = new LinkedList<BigDecimal>();
         values.addAll(Arrays.asList(zeros));
         values.addAll(Arrays.asList(ones));

         for(BigDecimal zero1: zeros) {
             for(BigDecimal value: values) {
                 BigDecimal expected = new BigDecimal(BigInteger.ZERO,
                                                      (int)Math.min(Math.max((long)zero1.scale()+value.scale(),
                                                                             Integer.MIN_VALUE ),
                                                                    Integer.MAX_VALUE ) );
                 BigDecimal result;

                 if(! (result=zero1.multiply(value)).equals(expected) ) {
                     failures++;
                     System.err.println("For classic exact multiply, expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero1.multiply(value, MathContext.UNLIMITED)).equals(expected) ) {
                     failures++;
                     System.err.println("For UNLIMITED math context multiply," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero1.multiply(value, longEnough)).equals(expected) ) {
                     failures++;
                     System.err.println("For longEnough math context multiply," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

             }
         }

         return failures;
     }

     static int divideTests() {
         int failures = 0;

         BigDecimal [] ones = {
             BigDecimal.valueOf(1, 0),
             BigDecimal.valueOf(10, -1),
             BigDecimal.valueOf(100, -2),
             BigDecimal.valueOf(1000, -3),
             BigDecimal.valueOf(1000000, -5),
         };

         for(BigDecimal one: ones) {
             for(BigDecimal zero: zeros) {
                 BigDecimal expected = new BigDecimal(BigInteger.ZERO,
                                                      (int)Math.min(Math.max((long)zero.scale() - one.scale(),
                                                                             Integer.MIN_VALUE ),
                                                                    Integer.MAX_VALUE ) );
                 BigDecimal result;

                 if(! (result=zero.divide(one)).equals(expected) ) {
                     failures++;
                     System.err.println("For classic exact divide, expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero.divide(one, MathContext.UNLIMITED)).equals(expected) ) {
                     failures++;
                     System.err.println("For UNLIMITED math context divide," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

                 if(! (result=zero.divide(one, longEnough)).equals(expected) ) {
                     failures++;
                     System.err.println("For longEnough math context divide," +
                                        " expected scale of " +
                                        expected.scale() + "; got " +
                                        result.scale() + ".");
                 }

             }
         }

         return failures;
     }

     static int setScaleTests() {
         int failures = 0;

         int scales[] = {
             Integer.MIN_VALUE,
             Integer.MIN_VALUE+1,
             -10000000,
             -3,
             -2,
             -1,
             0,
             1,
             2,
             3,
             10,
             10000000,
             Integer.MAX_VALUE-1,
             Integer.MAX_VALUE
         };

         for(BigDecimal zero: zeros) {
             for(int scale: scales) {
                 try {
                     BigDecimal bd = zero.setScale(scale);
                 }
                 catch (ArithmeticException e) {
                     failures++;
                     System.err.println("Exception when trying to set a scale of " + scale +
                                        " on " + zero);
                 }
             }
         }

         return failures;
     }

     static int toEngineeringStringTests() {
         int failures = 0;

         String [][] testCases  = {
             {"0E+10",   "0.00E+12"},
             {"0E+9",    "0E+9"},
             {"0E+8",    "0.0E+9"},
             {"0E+7",    "0.00E+9"},

             {"0E-10",   "0.0E-9"},
             {"0E-9",    "0E-9"},
             {"0E-8",    "0.00E-6"},
             {"0E-7",    "0.0E-6"},
         };

         for(String[] testCase: testCases) {
             BigDecimal bd = new BigDecimal(testCase[0]);
             String result = bd.toEngineeringString();

             if (!result.equals(testCase[1]) ||
                 !bd.equals(new BigDecimal(result))) {
                 failures++;
                 System.err.println("From input ``" + testCase[0] + ",'' " +
                                    " bad engineering string output ``" + result +
                                    "''; expected ``" + testCase[1] + ".''");
             }

         }

         return failures;
     }

     static int ulpTests() {
         int failures = 0;

         for(BigDecimal zero: zeros) {
             BigDecimal result;
             BigDecimal expected = BigDecimal.valueOf(1, zero.scale());

             if (! (result=zero.ulp()).equals(expected) ) {
                 failures++;
                 System.err.println("Unexpected ulp value for zero value " +
                                    zero + "; expected " + expected +
                                    ", got " + result);
             }
         }

         return failures;
     }

     static int setScaleDoesNotMutateTest() {
         BigDecimal total = new BigDecimal("258815507198903607775511093103396443816569106750031264155319238473795838680758514810110764742309284477206138527975952150289602995045050194333030191178778772026538699925775139201970526695485362661420908248887297829319881475178467494779683293036572059595504702727301324759997409522995072582369210284334718757260859794972695026582432867589093687280300148141501712013226636373167978223780290547640482160818746599330924736802844173226042389174403401903999447463440670236056324929325189403433689"
                 + ".426167432065785331444814035799717606745777287606858873045971898862329763544687891847664736523584843544347118836628373041412918374550458884706686730726101338872517021688769782894793734049819222924171842793485919753186993388451909096042127903835765393729547730953942175461146061715108701615615142134282261293656760570061554783195726716403304101469782303957325142638493327692352838806741611887655695029948975509680496573999174402058593454203190963443179532640446352828089016874853634851387762579319853267317320515941105912189838719919259277721994880193541634872882180184303434360412344059435559680494807415573269199203376126242271766939666939316648575065702750502798973418978204972336924254702551350654650573582614211506856383897692911422458286912085339575875324832979140870119455620532272318122103640233069115700020760625493816902806241630788230268031695140687964931377988962507263990468276009750998066442971308866347136022907166625330623130307555914930120150437900510530537258665172619821272937026713977709974434967165159545592482710663639966781678268622620229577009317698254134914742098420792313931843709810905414336383757407675429663714210967924767434203021205270369316797752411974617662200898086335322218191674846795163102021505555508444216708745911194321674887527227200297039471799580744303346354057273540730643842091810899490590914195225087593013834388801018488174855060306804024894292757613618190472234110859436472645203753139820658279559340251226992556744343475086923568365637919479462424794554522865559888240039662899509652221329892034706445253487898044421278283079233226845124525434586324657471286953226255430662125870993375281512713207125720748163498642795960457639954616530163959004770092547297392499137383176609646505351001304840762905826237024982330597805063521162285806541220110524989649256399233792799406995068469271941269511818994954109392839548141262324660472253632382325038836831429045617036015122388070240133760858500132713255407855625837956886349324981003917084922808187223285051144454915441134217743066575863563572152133978905444998209075763950909784148142018992367290485890072303179512881131769414783097454103103347826517701720263541869335631166977965013552647906729408522950996105479525445916501155305220090853891226367184989434453290788068397817927893708837722255115237672194162924260945492012622891770365546831236789867922136747819364833843397165107825773447549885351449899330007200651144003961228091210630807333236718793283427788965479074476288255387824982443633190938302785760754436525586544523339170400053128503337395428393881357669568532722167493096151221381017320147344991331421789379785964440840684363041795410525097564979585773948558651896834067324427900848255265001498890329859444233861478388742393060996236783742654761350763876989363052609107226398858310051497856931093693697981165801539060516895227818925342535261227134364063673285588256280386915163875872231395348293505967057794409379709079685798908660258077792158532257603211711587587586356431658240229896344639704");
         if (total.setScale(0, RoundingMode.DOWN).equals(total.setScale(0, RoundingMode.DOWN))) {
             return 0;
         } else {
             return 1;
         }
     }

     public static void main(String argv[]) {
         int failures = 0;

         failures += addTests();
         failures += subtractTests();
         failures += multiplyTests();
         failures += divideTests();
         failures += setScaleTests();
         failures += toEngineeringStringTests();
         failures += ulpTests();
         failures += setScaleDoesNotMutateTest();

         if (failures > 0 ) {
             throw new RuntimeException("Incurred " + failures + " failures" +
                                        " testing the preservation of zero scales.");
         }
     }
 }
	/*
	* Copyright (c) 2003, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	/*
	* @test
	* @bug 4902952 4905407 4916149 8057793
	* @summary Tests that the scale of zero is propagated properly and has the
	* proper effect and that setting the scale to zero does not mutate the
	* BigDecimal.
	* @author Joseph D. Darcy
	*/

	import java.math.*;
	import java.util.*;

	public class ZeroScalingTests {

	static MathContext longEnough = new MathContext(50, RoundingMode.UNNECESSARY);

	static BigDecimal[] zeros = new BigDecimal[23];
	static {
	for(int i = 0; i < 21; i++) {
	zeros[i] = new BigDecimal(BigInteger.ZERO, i-10);
	}
	zeros[21] = new BigDecimal(BigInteger.ZERO, Integer.MIN_VALUE);
	zeros[22] = new BigDecimal(BigInteger.ZERO, Integer.MAX_VALUE);
	}

	static BigDecimal element = BigDecimal.valueOf(100, -2);

	static MathContext contexts[] = {
	new MathContext(0, RoundingMode.UNNECESSARY),
	new MathContext(100, RoundingMode.UNNECESSARY),
	new MathContext(5, RoundingMode.UNNECESSARY),
	new MathContext(4, RoundingMode.UNNECESSARY),
	new MathContext(3, RoundingMode.UNNECESSARY),
	new MathContext(2, RoundingMode.UNNECESSARY),
	new MathContext(1, RoundingMode.UNNECESSARY),
	};


	static int addTests() {
	int failures = 0;

	for(BigDecimal zero1: zeros) {
	for(BigDecimal zero2: zeros) {
	BigDecimal expected = new BigDecimal(BigInteger.ZERO,
	Math.max(zero1.scale(), zero2.scale()));
	BigDecimal result;

	if(! (result=zero1.add(zero2)).equals(expected) ) {
	failures++;
	System.err.println("For classic exact add, expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero1.add(zero2, MathContext.UNLIMITED)).equals(expected) ) {
	failures++;
	System.err.println("For UNLIMITED math context add," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero1.add(zero2, longEnough)).equals(expected) ) {
	failures++;
	System.err.println("For longEnough math context add," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	}
	}

	// Test effect of adding zero to a nonzero value.
	for (MathContext mc: contexts) {
	for (BigDecimal zero: zeros) {
	if (Math.abs((long)zero.scale()) < 100 ) {

	int preferredScale = Math.max(zero.scale(), element.scale());
	if (mc.getPrecision() != 0) {
	if (preferredScale < -4 )
	preferredScale = -4;
	else if (preferredScale > -(5 - mc.getPrecision())) {
	preferredScale = -(5 - mc.getPrecision());
	}
	}


	/*
	System.err.println("\n " + element + " +\t" + zero + " =\t" + result);

	System.err.println("scales" + element.scale() + " \t" + zero.scale() +
	" \t " + result.scale() + "\t precison = " + mc.getPrecision());
	System.err.println("expected scale = " + preferredScale);
	*/

	BigDecimal result = element.add(zero, mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	result = zero.add(element, mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	result = element.negate().add(zero, mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element.negate()) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	result = zero.add(element.negate(), mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element.negate()) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	}
	}
	}

	return failures;
	}

	static int subtractTests() {
	int failures = 0;

	for(BigDecimal zero1: zeros) {
	for(BigDecimal zero2: zeros) {
	BigDecimal expected = new BigDecimal(BigInteger.ZERO,
	Math.max(zero1.scale(), zero2.scale()));
	BigDecimal result;

	if(! (result=zero1.subtract(zero2)).equals(expected) ) {
	failures++;
	System.err.println("For classic exact subtract, expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero1.subtract(zero2, MathContext.UNLIMITED)).equals(expected) ) {
	failures++;
	System.err.println("For UNLIMITED math context subtract," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero1.subtract(zero2, longEnough)).equals(expected) ) {
	failures++;
	System.err.println("For longEnough math context subtract," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	}
	}


	// Test effect of adding zero to a nonzero value.
	for (MathContext mc: contexts) {
	for (BigDecimal zero: zeros) {
	if (Math.abs((long)zero.scale()) < 100 ) {

	int preferredScale = Math.max(zero.scale(), element.scale());
	if (mc.getPrecision() != 0) {
	if (preferredScale < -4 )
	preferredScale = -4;
	else if (preferredScale > -(5 - mc.getPrecision())) {
	preferredScale = -(5 - mc.getPrecision());
	}
	}


	/*
	System.err.println("\n " + element + " +\t" + zero + " =\t" + result);

	System.err.println("scales" + element.scale() + " \t" + zero.scale() +
	" \t " + result.scale() + "\t precison = " + mc.getPrecision());
	System.err.println("expected scale = " + preferredScale);
	*/

	BigDecimal result = element.subtract(zero, mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	result = zero.subtract(element, mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element.negate()) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	result = element.negate().subtract(zero, mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element.negate()) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	result = zero.subtract(element.negate(), mc);
	if (result.scale() != preferredScale \|\|
	result.compareTo(element) != 0) {
	failures++;
	System.err.println("Expected scale " + preferredScale +
	" result scale was " + result.scale() +
	" ; value was " + result);
	}

	}
	}
	}

	return failures;
	}

	static int multiplyTests() {
	int failures = 0;

	BigDecimal ones[] = {
	BigDecimal.valueOf(1, 0),
	BigDecimal.valueOf(10, 1),
	BigDecimal.valueOf(1000, 3),
	BigDecimal.valueOf(100000000, 8),
	};

	List<BigDecimal> values = new LinkedList<BigDecimal>();
	values.addAll(Arrays.asList(zeros));
	values.addAll(Arrays.asList(ones));

	for(BigDecimal zero1: zeros) {
	for(BigDecimal value: values) {
	BigDecimal expected = new BigDecimal(BigInteger.ZERO,
	(int)Math.min(Math.max((long)zero1.scale()+value.scale(),
	Integer.MIN_VALUE ),
	Integer.MAX_VALUE ) );
	BigDecimal result;

	if(! (result=zero1.multiply(value)).equals(expected) ) {
	failures++;
	System.err.println("For classic exact multiply, expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero1.multiply(value, MathContext.UNLIMITED)).equals(expected) ) {
	failures++;
	System.err.println("For UNLIMITED math context multiply," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero1.multiply(value, longEnough)).equals(expected) ) {
	failures++;
	System.err.println("For longEnough math context multiply," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	}
	}

	return failures;
	}

	static int divideTests() {
	int failures = 0;

	BigDecimal [] ones = {
	BigDecimal.valueOf(1, 0),
	BigDecimal.valueOf(10, -1),
	BigDecimal.valueOf(100, -2),
	BigDecimal.valueOf(1000, -3),
	BigDecimal.valueOf(1000000, -5),
	};

	for(BigDecimal one: ones) {
	for(BigDecimal zero: zeros) {
	BigDecimal expected = new BigDecimal(BigInteger.ZERO,
	(int)Math.min(Math.max((long)zero.scale() - one.scale(),
	Integer.MIN_VALUE ),
	Integer.MAX_VALUE ) );
	BigDecimal result;

	if(! (result=zero.divide(one)).equals(expected) ) {
	failures++;
	System.err.println("For classic exact divide, expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero.divide(one, MathContext.UNLIMITED)).equals(expected) ) {
	failures++;
	System.err.println("For UNLIMITED math context divide," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	if(! (result=zero.divide(one, longEnough)).equals(expected) ) {
	failures++;
	System.err.println("For longEnough math context divide," +
	" expected scale of " +
	expected.scale() + "; got " +
	result.scale() + ".");
	}

	}
	}

	return failures;
	}

	static int setScaleTests() {
	int failures = 0;

	int scales[] = {
	Integer.MIN_VALUE,
	Integer.MIN_VALUE+1,
	-10000000,
	-3,
	-2,
	-1,
	0,
	1,
	2,
	3,
	10,
	10000000,
	Integer.MAX_VALUE-1,
	Integer.MAX_VALUE
	};

	for(BigDecimal zero: zeros) {
	for(int scale: scales) {
	try {
	BigDecimal bd = zero.setScale(scale);
	}
	catch (ArithmeticException e) {
	failures++;
	System.err.println("Exception when trying to set a scale of " + scale +
	" on " + zero);
	}
	}
	}

	return failures;
	}

	static int toEngineeringStringTests() {
	int failures = 0;

	String [][] testCases = {
	{"0E+10", "0.00E+12"},
	{"0E+9", "0E+9"},
	{"0E+8", "0.0E+9"},
	{"0E+7", "0.00E+9"},

	{"0E-10", "0.0E-9"},
	{"0E-9", "0E-9"},
	{"0E-8", "0.00E-6"},
	{"0E-7", "0.0E-6"},
	};

	for(String[] testCase: testCases) {
	BigDecimal bd = new BigDecimal(testCase[0]);
	String result = bd.toEngineeringString();

	if (!result.equals(testCase[1]) \|\|
	!bd.equals(new BigDecimal(result))) {
	failures++;
	System.err.println("From input ``" + testCase[0] + ",'' " +
	" bad engineering string output ``" + result +
	"''; expected ``" + testCase[1] + ".''");
	}

	}

	return failures;
	}

	static int ulpTests() {
	int failures = 0;

	for(BigDecimal zero: zeros) {
	BigDecimal result;
	BigDecimal expected = BigDecimal.valueOf(1, zero.scale());

	if (! (result=zero.ulp()).equals(expected) ) {
	failures++;
	System.err.println("Unexpected ulp value for zero value " +
	zero + "; expected " + expected +
	", got " + result);
	}
	}

	return failures;
	}

	static int setScaleDoesNotMutateTest() {
	BigDecimal total = new BigDecimal("258815507198903607775511093103396443816569106750031264155319238473795838680758514810110764742309284477206138527975952150289602995045050194333030191178778772026538699925775139201970526695485362661420908248887297829319881475178467494779683293036572059595504702727301324759997409522995072582369210284334718757260859794972695026582432867589093687280300148141501712013226636373167978223780290547640482160818746599330924736802844173226042389174403401903999447463440670236056324929325189403433689"
	+ ".426167432065785331444814035799717606745777287606858873045971898862329763544687891847664736523584843544347118836628373041412918374550458884706686730726101338872517021688769782894793734049819222924171842793485919753186993388451909096042127903835765393729547730953942175461146061715108701615615142134282261293656760570061554783195726716403304101469782303957325142638493327692352838806741611887655695029948975509680496573999174402058593454203190963443179532640446352828089016874853634851387762579319853267317320515941105912189838719919259277721994880193541634872882180184303434360412344059435559680494807415573269199203376126242271766939666939316648575065702750502798973418978204972336924254702551350654650573582614211506856383897692911422458286912085339575875324832979140870119455620532272318122103640233069115700020760625493816902806241630788230268031695140687964931377988962507263990468276009750998066442971308866347136022907166625330623130307555914930120150437900510530537258665172619821272937026713977709974434967165159545592482710663639966781678268622620229577009317698254134914742098420792313931843709810905414336383757407675429663714210967924767434203021205270369316797752411974617662200898086335322218191674846795163102021505555508444216708745911194321674887527227200297039471799580744303346354057273540730643842091810899490590914195225087593013834388801018488174855060306804024894292757613618190472234110859436472645203753139820658279559340251226992556744343475086923568365637919479462424794554522865559888240039662899509652221329892034706445253487898044421278283079233226845124525434586324657471286953226255430662125870993375281512713207125720748163498642795960457639954616530163959004770092547297392499137383176609646505351001304840762905826237024982330597805063521162285806541220110524989649256399233792799406995068469271941269511818994954109392839548141262324660472253632382325038836831429045617036015122388070240133760858500132713255407855625837956886349324981003917084922808187223285051144454915441134217743066575863563572152133978905444998209075763950909784148142018992367290485890072303179512881131769414783097454103103347826517701720263541869335631166977965013552647906729408522950996105479525445916501155305220090853891226367184989434453290788068397817927893708837722255115237672194162924260945492012622891770365546831236789867922136747819364833843397165107825773447549885351449899330007200651144003961228091210630807333236718793283427788965479074476288255387824982443633190938302785760754436525586544523339170400053128503337395428393881357669568532722167493096151221381017320147344991331421789379785964440840684363041795410525097564979585773948558651896834067324427900848255265001498890329859444233861478388742393060996236783742654761350763876989363052609107226398858310051497856931093693697981165801539060516895227818925342535261227134364063673285588256280386915163875872231395348293505967057794409379709079685798908660258077792158532257603211711587587586356431658240229896344639704");
	if (total.setScale(0, RoundingMode.DOWN).equals(total.setScale(0, RoundingMode.DOWN))) {
	return 0;
	} else {
	return 1;
	}
	}

	public static void main(String argv[]) {
	int failures = 0;

	failures += addTests();
	failures += subtractTests();
	failures += multiplyTests();
	failures += divideTests();
	failures += setScaleTests();
	failures += toEngineeringStringTests();
	failures += ulpTests();
	failures += setScaleDoesNotMutateTest();

	if (failures > 0 ) {
	throw new RuntimeException("Incurred " + failures + " failures" +
	" testing the preservation of zero scales.");
	}
	}
	}