| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/Java/Openjdk/test/jdk/java/math/BigDecimal/ (Sun/Oracle ©) Datei vom 13.11.2022 mit Größe 21 kB |
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Quelle ZeroScalingTests.java Sprache: JAVA |
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/*
* 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("2588155071989036077755110931033964438165691067500 + ".42616743206578533144481403579971760674577728760685887304597189886232976354468 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."); } } } ¤ Dauer der Verarbeitung: 0.20 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-03-28