/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.commons.lang3.math; import static org.junit.jupiter.api.Assertions.assertEquals; import static org.junit.jupiter.api.Assertions.assertFalse; import static org.junit.jupiter.api.Assertions.assertNotNull; import static org.junit.jupiter.api.Assertions.assertNull; import static org.junit.jupiter.api.Assertions.assertThrows; import static org.junit.jupiter.api.Assertions.assertTrue; import java.lang.reflect.Constructor; import java.lang.reflect.Modifier; import java.math.BigDecimal; import java.math.BigInteger; import java.math.RoundingMode; import org.apache.commons.lang3.AbstractLangTest; import org.junit.jupiter.api.Test; /** * Unit tests {@link org.apache.commons.lang3.math.NumberUtils}. */ public class NumberUtilsTest extends AbstractLangTest { private boolean checkCreateNumber(final String val) { try { final Object obj = NumberUtils.createNumber(val); return obj != null; } catch (final NumberFormatException e) { return false; } } @Test public void compareByte() { assertTrue(NumberUtils.compare((byte) -3, (byte) 0) < 0); assertEquals(0, NumberUtils.compare((byte) 113, (byte) 113)); assertTrue(NumberUtils.compare((byte) 123, (byte) 32) > 0); } @Test public void compareInt() { assertTrue(NumberUtils.compare(-3, 0) < 0); assertEquals(0, NumberUtils.compare(113, 113)); assertTrue(NumberUtils.compare(213, 32) > 0); } private void compareIsCreatableWithCreateNumber(final String val, final boolean expected) { final boolean isValid = NumberUtils.isCreatable(val); final boolean canCreate = checkCreateNumber(val); assertTrue(isValid == expected && canCreate == expected, "Expecting " + expected + " for isCreatable/createNumber using \"" + val + "\" but got " + isValid + " and " + canCreate); } @SuppressWarnings("deprecation") private void compareIsNumberWithCreateNumber(final String val, final boolean expected) { final boolean isValid = NumberUtils.isNumber(val); final boolean canCreate = checkCreateNumber(val); assertTrue(isValid == expected && canCreate == expected, "Expecting " + expected + " for isNumber/createNumber using \"" + val + "\" but got " + isValid + " and " + canCreate); } @Test public void compareLong() { assertTrue(NumberUtils.compare(-3L, 0L) < 0); assertEquals(0, NumberUtils.compare(113L, 113L)); assertTrue(NumberUtils.compare(213L, 32L) > 0); } @Test public void compareShort() { assertTrue(NumberUtils.compare((short) -3, (short) 0) < 0); assertEquals(0, NumberUtils.compare((short) 113, (short) 113)); assertTrue(NumberUtils.compare((short) 213, (short) 32) > 0); } /** * Test for {@link NumberUtils#toDouble(BigDecimal)} */ @Test public void testBigIntegerToDoubleBigInteger() { assertEquals(0.0d, NumberUtils.toDouble((BigDecimal) null), "toDouble(BigInteger) 1 failed"); assertEquals(8.5d, NumberUtils.toDouble(BigDecimal.valueOf(8.5d)), "toDouble(BigInteger) 2 failed"); } /** * Test for {@link NumberUtils#toDouble(BigDecimal, double)} */ @Test public void testBigIntegerToDoubleBigIntegerD() { assertEquals(1.1d, NumberUtils.toDouble((BigDecimal) null, 1.1d), "toDouble(BigInteger) 1 failed"); assertEquals(8.5d, NumberUtils.toDouble(BigDecimal.valueOf(8.5d), 1.1d), "toDouble(BigInteger) 2 failed"); } // Testing JDK against old Lang functionality @Test public void testCompareDouble() { assertEquals(0, Double.compare(Double.NaN, Double.NaN)); assertEquals(Double.compare(Double.NaN, Double.POSITIVE_INFINITY), +1); assertEquals(Double.compare(Double.NaN, Double.MAX_VALUE), +1); assertEquals(Double.compare(Double.NaN, 1.2d), +1); assertEquals(Double.compare(Double.NaN, 0.0d), +1); assertEquals(Double.compare(Double.NaN, -0.0d), +1); assertEquals(Double.compare(Double.NaN, -1.2d), +1); assertEquals(Double.compare(Double.NaN, -Double.MAX_VALUE), +1); assertEquals(Double.compare(Double.NaN, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, Double.NaN), -1); assertEquals(0, Double.compare(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY)); assertEquals(Double.compare(Double.POSITIVE_INFINITY, Double.MAX_VALUE), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, 1.2d), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, 0.0d), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, -0.0d), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, -1.2d), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, -Double.MAX_VALUE), +1); assertEquals(Double.compare(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(Double.MAX_VALUE, Double.NaN), -1); assertEquals(Double.compare(Double.MAX_VALUE, Double.POSITIVE_INFINITY), -1); assertEquals(0, Double.compare(Double.MAX_VALUE, Double.MAX_VALUE)); assertEquals(Double.compare(Double.MAX_VALUE, 1.2d), +1); assertEquals(Double.compare(Double.MAX_VALUE, 0.0d), +1); assertEquals(Double.compare(Double.MAX_VALUE, -0.0d), +1); assertEquals(Double.compare(Double.MAX_VALUE, -1.2d), +1); assertEquals(Double.compare(Double.MAX_VALUE, -Double.MAX_VALUE), +1); assertEquals(Double.compare(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(1.2d, Double.NaN), -1); assertEquals(Double.compare(1.2d, Double.POSITIVE_INFINITY), -1); assertEquals(Double.compare(1.2d, Double.MAX_VALUE), -1); assertEquals(0, Double.compare(1.2d, 1.2d)); assertEquals(Double.compare(1.2d, 0.0d), +1); assertEquals(Double.compare(1.2d, -0.0d), +1); assertEquals(Double.compare(1.2d, -1.2d), +1); assertEquals(Double.compare(1.2d, -Double.MAX_VALUE), +1); assertEquals(Double.compare(1.2d, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(0.0d, Double.NaN), -1); assertEquals(Double.compare(0.0d, Double.POSITIVE_INFINITY), -1); assertEquals(Double.compare(0.0d, Double.MAX_VALUE), -1); assertEquals(Double.compare(0.0d, 1.2d), -1); assertEquals(0, Double.compare(0.0d, 0.0d)); assertEquals(Double.compare(0.0d, -0.0d), +1); assertEquals(Double.compare(0.0d, -1.2d), +1); assertEquals(Double.compare(0.0d, -Double.MAX_VALUE), +1); assertEquals(Double.compare(0.0d, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(-0.0d, Double.NaN), -1); assertEquals(Double.compare(-0.0d, Double.POSITIVE_INFINITY), -1); assertEquals(Double.compare(-0.0d, Double.MAX_VALUE), -1); assertEquals(Double.compare(-0.0d, 1.2d), -1); assertEquals(Double.compare(-0.0d, 0.0d), -1); assertEquals(0, Double.compare(-0.0d, -0.0d)); assertEquals(Double.compare(-0.0d, -1.2d), +1); assertEquals(Double.compare(-0.0d, -Double.MAX_VALUE), +1); assertEquals(Double.compare(-0.0d, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(-1.2d, Double.NaN), -1); assertEquals(Double.compare(-1.2d, Double.POSITIVE_INFINITY), -1); assertEquals(Double.compare(-1.2d, Double.MAX_VALUE), -1); assertEquals(Double.compare(-1.2d, 1.2d), -1); assertEquals(Double.compare(-1.2d, 0.0d), -1); assertEquals(Double.compare(-1.2d, -0.0d), -1); assertEquals(0, Double.compare(-1.2d, -1.2d)); assertEquals(Double.compare(-1.2d, -Double.MAX_VALUE), +1); assertEquals(Double.compare(-1.2d, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(-Double.MAX_VALUE, Double.NaN), -1); assertEquals(Double.compare(-Double.MAX_VALUE, Double.POSITIVE_INFINITY), -1); assertEquals(Double.compare(-Double.MAX_VALUE, Double.MAX_VALUE), -1); assertEquals(Double.compare(-Double.MAX_VALUE, 1.2d), -1); assertEquals(Double.compare(-Double.MAX_VALUE, 0.0d), -1); assertEquals(Double.compare(-Double.MAX_VALUE, -0.0d), -1); assertEquals(Double.compare(-Double.MAX_VALUE, -1.2d), -1); assertEquals(0, Double.compare(-Double.MAX_VALUE, -Double.MAX_VALUE)); assertEquals(Double.compare(-Double.MAX_VALUE, Double.NEGATIVE_INFINITY), +1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, Double.NaN), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, 1.2d), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, 0.0d), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, -0.0d), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, -1.2d), -1); assertEquals(Double.compare(Double.NEGATIVE_INFINITY, -Double.MAX_VALUE), -1); assertEquals(0, Double.compare(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY)); } @Test public void testCompareFloat() { assertEquals(0, Float.compare(Float.NaN, Float.NaN)); assertEquals(Float.compare(Float.NaN, Float.POSITIVE_INFINITY), +1); assertEquals(Float.compare(Float.NaN, Float.MAX_VALUE), +1); assertEquals(Float.compare(Float.NaN, 1.2f), +1); assertEquals(Float.compare(Float.NaN, 0.0f), +1); assertEquals(Float.compare(Float.NaN, -0.0f), +1); assertEquals(Float.compare(Float.NaN, -1.2f), +1); assertEquals(Float.compare(Float.NaN, -Float.MAX_VALUE), +1); assertEquals(Float.compare(Float.NaN, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, Float.NaN), -1); assertEquals(0, Float.compare(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY)); assertEquals(Float.compare(Float.POSITIVE_INFINITY, Float.MAX_VALUE), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, 1.2f), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, 0.0f), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, -0.0f), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, -1.2f), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, -Float.MAX_VALUE), +1); assertEquals(Float.compare(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(Float.MAX_VALUE, Float.NaN), -1); assertEquals(Float.compare(Float.MAX_VALUE, Float.POSITIVE_INFINITY), -1); assertEquals(0, Float.compare(Float.MAX_VALUE, Float.MAX_VALUE)); assertEquals(Float.compare(Float.MAX_VALUE, 1.2f), +1); assertEquals(Float.compare(Float.MAX_VALUE, 0.0f), +1); assertEquals(Float.compare(Float.MAX_VALUE, -0.0f), +1); assertEquals(Float.compare(Float.MAX_VALUE, -1.2f), +1); assertEquals(Float.compare(Float.MAX_VALUE, -Float.MAX_VALUE), +1); assertEquals(Float.compare(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(1.2f, Float.NaN), -1); assertEquals(Float.compare(1.2f, Float.POSITIVE_INFINITY), -1); assertEquals(Float.compare(1.2f, Float.MAX_VALUE), -1); assertEquals(0, Float.compare(1.2f, 1.2f)); assertEquals(Float.compare(1.2f, 0.0f), +1); assertEquals(Float.compare(1.2f, -0.0f), +1); assertEquals(Float.compare(1.2f, -1.2f), +1); assertEquals(Float.compare(1.2f, -Float.MAX_VALUE), +1); assertEquals(Float.compare(1.2f, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(0.0f, Float.NaN), -1); assertEquals(Float.compare(0.0f, Float.POSITIVE_INFINITY), -1); assertEquals(Float.compare(0.0f, Float.MAX_VALUE), -1); assertEquals(Float.compare(0.0f, 1.2f), -1); assertEquals(0, Float.compare(0.0f, 0.0f)); assertEquals(Float.compare(0.0f, -0.0f), +1); assertEquals(Float.compare(0.0f, -1.2f), +1); assertEquals(Float.compare(0.0f, -Float.MAX_VALUE), +1); assertEquals(Float.compare(0.0f, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(-0.0f, Float.NaN), -1); assertEquals(Float.compare(-0.0f, Float.POSITIVE_INFINITY), -1); assertEquals(Float.compare(-0.0f, Float.MAX_VALUE), -1); assertEquals(Float.compare(-0.0f, 1.2f), -1); assertEquals(Float.compare(-0.0f, 0.0f), -1); assertEquals(0, Float.compare(-0.0f, -0.0f)); assertEquals(Float.compare(-0.0f, -1.2f), +1); assertEquals(Float.compare(-0.0f, -Float.MAX_VALUE), +1); assertEquals(Float.compare(-0.0f, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(-1.2f, Float.NaN), -1); assertEquals(Float.compare(-1.2f, Float.POSITIVE_INFINITY), -1); assertEquals(Float.compare(-1.2f, Float.MAX_VALUE), -1); assertEquals(Float.compare(-1.2f, 1.2f), -1); assertEquals(Float.compare(-1.2f, 0.0f), -1); assertEquals(Float.compare(-1.2f, -0.0f), -1); assertEquals(0, Float.compare(-1.2f, -1.2f)); assertEquals(Float.compare(-1.2f, -Float.MAX_VALUE), +1); assertEquals(Float.compare(-1.2f, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(-Float.MAX_VALUE, Float.NaN), -1); assertEquals(Float.compare(-Float.MAX_VALUE, Float.POSITIVE_INFINITY), -1); assertEquals(Float.compare(-Float.MAX_VALUE, Float.MAX_VALUE), -1); assertEquals(Float.compare(-Float.MAX_VALUE, 1.2f), -1); assertEquals(Float.compare(-Float.MAX_VALUE, 0.0f), -1); assertEquals(Float.compare(-Float.MAX_VALUE, -0.0f), -1); assertEquals(Float.compare(-Float.MAX_VALUE, -1.2f), -1); assertEquals(0, Float.compare(-Float.MAX_VALUE, -Float.MAX_VALUE)); assertEquals(Float.compare(-Float.MAX_VALUE, Float.NEGATIVE_INFINITY), +1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, Float.NaN), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, 1.2f), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, 0.0f), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, -0.0f), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, -1.2f), -1); assertEquals(Float.compare(Float.NEGATIVE_INFINITY, -Float.MAX_VALUE), -1); assertEquals(0, Float.compare(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY)); } @SuppressWarnings("cast") // suppress instanceof warning check @Test public void testConstants() { assertTrue(NumberUtils.LONG_ZERO instanceof Long); assertTrue(NumberUtils.LONG_ONE instanceof Long); assertTrue(NumberUtils.LONG_MINUS_ONE instanceof Long); assertTrue(NumberUtils.INTEGER_ZERO instanceof Integer); assertTrue(NumberUtils.INTEGER_ONE instanceof Integer); assertTrue(NumberUtils.INTEGER_MINUS_ONE instanceof Integer); assertTrue(NumberUtils.SHORT_ZERO instanceof Short); assertTrue(NumberUtils.SHORT_ONE instanceof Short); assertTrue(NumberUtils.SHORT_MINUS_ONE instanceof Short); assertTrue(NumberUtils.BYTE_ZERO instanceof Byte); assertTrue(NumberUtils.BYTE_ONE instanceof Byte); assertTrue(NumberUtils.BYTE_MINUS_ONE instanceof Byte); assertTrue(NumberUtils.DOUBLE_ZERO instanceof Double); assertTrue(NumberUtils.DOUBLE_ONE instanceof Double); assertTrue(NumberUtils.DOUBLE_MINUS_ONE instanceof Double); assertTrue(NumberUtils.FLOAT_ZERO instanceof Float); assertTrue(NumberUtils.FLOAT_ONE instanceof Float); assertTrue(NumberUtils.FLOAT_MINUS_ONE instanceof Float); assertEquals(0, NumberUtils.LONG_ZERO.longValue()); assertEquals(1, NumberUtils.LONG_ONE.longValue()); assertEquals(NumberUtils.LONG_MINUS_ONE.longValue(), -1); assertEquals(0, NumberUtils.INTEGER_ZERO.intValue()); assertEquals(1, NumberUtils.INTEGER_ONE.intValue()); assertEquals(NumberUtils.INTEGER_MINUS_ONE.intValue(), -1); assertEquals(0, NumberUtils.SHORT_ZERO.shortValue()); assertEquals(1, NumberUtils.SHORT_ONE.shortValue()); assertEquals(NumberUtils.SHORT_MINUS_ONE.shortValue(), -1); assertEquals(0, NumberUtils.BYTE_ZERO.byteValue()); assertEquals(1, NumberUtils.BYTE_ONE.byteValue()); assertEquals(NumberUtils.BYTE_MINUS_ONE.byteValue(), -1); assertEquals(0.0d, NumberUtils.DOUBLE_ZERO.doubleValue()); assertEquals(1.0d, NumberUtils.DOUBLE_ONE.doubleValue()); assertEquals(NumberUtils.DOUBLE_MINUS_ONE.doubleValue(), -1.0d); assertEquals(0.0f, NumberUtils.FLOAT_ZERO.floatValue()); assertEquals(1.0f, NumberUtils.FLOAT_ONE.floatValue()); assertEquals(NumberUtils.FLOAT_MINUS_ONE.floatValue(), -1.0f); } @Test public void testConstructor() { assertNotNull(new NumberUtils()); final Constructor[] cons = NumberUtils.class.getDeclaredConstructors(); assertEquals(1, cons.length); assertTrue(Modifier.isPublic(cons[0].getModifiers())); assertTrue(Modifier.isPublic(NumberUtils.class.getModifiers())); assertFalse(Modifier.isFinal(NumberUtils.class.getModifiers())); } @Test public void testCreateBigDecimal() { assertEquals(new BigDecimal("1234.5"), NumberUtils.createBigDecimal("1234.5"), "createBigDecimal(String) failed"); assertNull(NumberUtils.createBigDecimal(null), "createBigDecimal(null) failed"); this.testCreateBigDecimalFailure(""); this.testCreateBigDecimalFailure(" "); this.testCreateBigDecimalFailure("\b\t\n\f\r"); // Funky whitespaces this.testCreateBigDecimalFailure("\u00A0\uFEFF\u000B\u000C\u001C\u001D\u001E\u001F"); // sign alone not valid this.testCreateBigDecimalFailure("-"); // comment in NumberUtils suggests some implementations may incorrectly allow this this.testCreateBigDecimalFailure("--"); this.testCreateBigDecimalFailure("--0"); // sign alone not valid this.testCreateBigDecimalFailure("+"); // in case this was also allowed by some JVMs this.testCreateBigDecimalFailure("++"); this.testCreateBigDecimalFailure("++0"); } protected void testCreateBigDecimalFailure(final String str) { assertThrows(NumberFormatException.class, () -> NumberUtils.createBigDecimal(str), "createBigDecimal(\"" + str + "\") should have failed."); } @Test public void testCreateBigInteger() { assertEquals(new BigInteger("12345"), NumberUtils.createBigInteger("12345"), "createBigInteger(String) failed"); assertNull(NumberUtils.createBigInteger(null), "createBigInteger(null) failed"); this.testCreateBigIntegerFailure(""); this.testCreateBigIntegerFailure(" "); this.testCreateBigIntegerFailure("\b\t\n\f\r"); // Funky whitespaces this.testCreateBigIntegerFailure("\u00A0\uFEFF\u000B\u000C\u001C\u001D\u001E\u001F"); assertEquals(new BigInteger("255"), NumberUtils.createBigInteger("0xff"), "createBigInteger(String) failed"); assertEquals(new BigInteger("255"), NumberUtils.createBigInteger("0Xff"), "createBigInteger(String) failed"); assertEquals(new BigInteger("255"), NumberUtils.createBigInteger("#ff"), "createBigInteger(String) failed"); assertEquals(new BigInteger("-255"), NumberUtils.createBigInteger("-0xff"), "createBigInteger(String) failed"); assertEquals(new BigInteger("255"), NumberUtils.createBigInteger("0377"), "createBigInteger(String) failed"); assertEquals(new BigInteger("-255"), NumberUtils.createBigInteger("-0377"), "createBigInteger(String) failed"); assertEquals(new BigInteger("-255"), NumberUtils.createBigInteger("-0377"), "createBigInteger(String) failed"); assertEquals(new BigInteger("-0"), NumberUtils.createBigInteger("-0"), "createBigInteger(String) failed"); assertEquals(new BigInteger("0"), NumberUtils.createBigInteger("0"), "createBigInteger(String) failed"); testCreateBigIntegerFailure("#"); testCreateBigIntegerFailure("-#"); testCreateBigIntegerFailure("0x"); testCreateBigIntegerFailure("-0x"); // LANG-1645 assertEquals(new BigInteger("+FFFFFFFFFFFFFFFF", 16), NumberUtils.createBigInteger("+0xFFFFFFFFFFFFFFFF")); assertEquals(new BigInteger("+FFFFFFFFFFFFFFFF", 16), NumberUtils.createBigInteger("+#FFFFFFFFFFFFFFFF")); assertEquals(new BigInteger("+1234567", 8), NumberUtils.createBigInteger("+01234567")); } protected void testCreateBigIntegerFailure(final String str) { assertThrows(NumberFormatException.class, () -> NumberUtils.createBigInteger(str), "createBigInteger(\"" + str + "\") should have failed."); } @Test public void testCreateDouble() { assertEquals(Double.valueOf("1234.5"), NumberUtils.createDouble("1234.5"), "createDouble(String) failed"); assertNull(NumberUtils.createDouble(null), "createDouble(null) failed"); this.testCreateDoubleFailure(""); this.testCreateDoubleFailure(" "); this.testCreateDoubleFailure("\b\t\n\f\r"); // Funky whitespaces this.testCreateDoubleFailure("\u00A0\uFEFF\u000B\u000C\u001C\u001D\u001E\u001F"); } protected void testCreateDoubleFailure(final String str) { assertThrows(NumberFormatException.class, () -> NumberUtils.createDouble(str), "createDouble(\"" + str + "\") should have failed."); } @Test public void testCreateFloat() { assertEquals(Float.valueOf("1234.5"), NumberUtils.createFloat("1234.5"), "createFloat(String) failed"); assertNull(NumberUtils.createFloat(null), "createFloat(null) failed"); this.testCreateFloatFailure(""); this.testCreateFloatFailure(" "); this.testCreateFloatFailure("\b\t\n\f\r"); // Funky whitespaces this.testCreateFloatFailure("\u00A0\uFEFF\u000B\u000C\u001C\u001D\u001E\u001F"); } protected void testCreateFloatFailure(final String str) { assertThrows(NumberFormatException.class, () -> NumberUtils.createFloat(str), "createFloat(\"" + str + "\") should have failed."); } @Test public void testCreateInteger() { assertEquals(Integer.valueOf("12345"), NumberUtils.createInteger("12345"), "createInteger(String) failed"); assertNull(NumberUtils.createInteger(null), "createInteger(null) failed"); this.testCreateIntegerFailure(""); this.testCreateIntegerFailure(" "); this.testCreateIntegerFailure("\b\t\n\f\r"); // Funky whitespaces this.testCreateIntegerFailure("\u00A0\uFEFF\u000B\u000C\u001C\u001D\u001E\u001F"); // LANG-1645 assertEquals(Integer.decode("+0xF"), NumberUtils.createInteger("+0xF")); } protected void testCreateIntegerFailure(final String str) { assertThrows(NumberFormatException.class, () -> NumberUtils.createInteger(str), "createInteger(\"" + str + "\") should have failed."); } @Test public void testCreateLong() { assertEquals(Long.valueOf("12345"), NumberUtils.createLong("12345"), "createLong(String) failed"); assertNull(NumberUtils.createLong(null), "createLong(null) failed"); this.testCreateLongFailure(""); this.testCreateLongFailure(" "); this.testCreateLongFailure("\b\t\n\f\r"); // Funky whitespaces this.testCreateLongFailure("\u00A0\uFEFF\u000B\u000C\u001C\u001D\u001E\u001F"); // LANG-1645 assertEquals(Long.decode("+0xFFFFFFFF"), NumberUtils.createLong("+0xFFFFFFFF")); } protected void testCreateLongFailure(final String str) { assertThrows(NumberFormatException.class, () -> NumberUtils.createLong(str), "createLong(\"" + str + "\") should have failed."); } @Test public void testCreateNumber() { // a lot of things can go wrong assertEquals(Float.valueOf("1234.5"), NumberUtils.createNumber("1234.5"), "createNumber(String) 1 failed"); assertEquals(Integer.valueOf("12345"), NumberUtils.createNumber("12345"), "createNumber(String) 2 failed"); assertEquals(Double.valueOf("1234.5"), NumberUtils.createNumber("1234.5D"), "createNumber(String) 3 failed"); assertEquals(Double.valueOf("1234.5"), NumberUtils.createNumber("1234.5d"), "createNumber(String) 3 failed"); assertEquals(Float.valueOf("1234.5"), NumberUtils.createNumber("1234.5F"), "createNumber(String) 4 failed"); assertEquals(Float.valueOf("1234.5"), NumberUtils.createNumber("1234.5f"), "createNumber(String) 4 failed"); assertEquals(Long.valueOf(Integer.MAX_VALUE + 1L), NumberUtils.createNumber("" + (Integer.MAX_VALUE + 1L)), "createNumber(String) 5 failed"); assertEquals(Long.valueOf(12345), NumberUtils.createNumber("12345L"), "createNumber(String) 6 failed"); assertEquals(Long.valueOf(12345), NumberUtils.createNumber("12345l"), "createNumber(String) 6 failed"); assertEquals(Float.valueOf("-1234.5"), NumberUtils.createNumber("-1234.5"), "createNumber(String) 7 failed"); assertEquals(Integer.valueOf("-12345"), NumberUtils.createNumber("-12345"), "createNumber(String) 8 failed"); assertEquals(0xFADE, NumberUtils.createNumber("0xFADE").intValue(), "createNumber(String) 9a failed"); assertEquals(0xFADE, NumberUtils.createNumber("0Xfade").intValue(), "createNumber(String) 9b failed"); assertEquals(-0xFADE, NumberUtils.createNumber("-0xFADE").intValue(), "createNumber(String) 10a failed"); assertEquals(-0xFADE, NumberUtils.createNumber("-0Xfade").intValue(), "createNumber(String) 10b failed"); assertEquals(Double.valueOf("1.1E200"), NumberUtils.createNumber("1.1E200"), "createNumber(String) 11 failed"); assertEquals(Float.valueOf("1.1E20"), NumberUtils.createNumber("1.1E20"), "createNumber(String) 12 failed"); assertEquals(Double.valueOf("-1.1E200"), NumberUtils.createNumber("-1.1E200"), "createNumber(String) 13 failed"); assertEquals(Double.valueOf("1.1E-200"), NumberUtils.createNumber("1.1E-200"), "createNumber(String) 14 failed"); assertNull(NumberUtils.createNumber(null), "createNumber(null) failed"); assertEquals(new BigInteger("12345678901234567890"), NumberUtils.createNumber("12345678901234567890L"), "createNumber(String) failed"); assertEquals(new BigDecimal("1.1E-700"), NumberUtils.createNumber("1.1E-700F"), "createNumber(String) 15 failed"); assertEquals(Long.valueOf("10" + Integer.MAX_VALUE), NumberUtils.createNumber("10" + Integer.MAX_VALUE + "L"), "createNumber(String) 16 failed"); assertEquals(Long.valueOf("10" + Integer.MAX_VALUE), NumberUtils.createNumber("10" + Integer.MAX_VALUE), "createNumber(String) 17 failed"); assertEquals(new BigInteger("10" + Long.MAX_VALUE), NumberUtils.createNumber("10" + Long.MAX_VALUE), "createNumber(String) 18 failed"); // LANG-521 assertEquals(Float.valueOf("2."), NumberUtils.createNumber("2."), "createNumber(String) LANG-521 failed"); // LANG-638 assertFalse(checkCreateNumber("1eE"), "createNumber(String) succeeded"); // LANG-693 assertEquals(Double.valueOf(Double.MAX_VALUE), NumberUtils.createNumber("" + Double.MAX_VALUE), "createNumber(String) LANG-693 failed"); // LANG-822 // ensure that the underlying negative number would create a BigDecimal final Number bigNum = NumberUtils.createNumber("-1.1E-700F"); assertNotNull(bigNum); assertEquals(BigDecimal.class, bigNum.getClass()); // LANG-1018 assertEquals(Double.valueOf("-160952.54"), NumberUtils.createNumber("-160952.54"), "createNumber(String) LANG-1018 failed"); // LANG-1187 assertEquals(Double.valueOf("6264583.33"), NumberUtils.createNumber("6264583.33"), "createNumber(String) LANG-1187 failed"); // LANG-1215 assertEquals(Double.valueOf("193343.82"), NumberUtils.createNumber("193343.82"), "createNumber(String) LANG-1215 failed"); // LANG-1060 assertEquals(Double.valueOf("001234.5678"), NumberUtils.createNumber("001234.5678"), "createNumber(String) LANG-1060a failed"); assertEquals(Double.valueOf("+001234.5678"), NumberUtils.createNumber("+001234.5678"), "createNumber(String) LANG-1060b failed"); assertEquals(Double.valueOf("-001234.5678"), NumberUtils.createNumber("-001234.5678"), "createNumber(String) LANG-1060c failed"); assertEquals(Double.valueOf("0000.00000"), NumberUtils.createNumber("0000.00000d"), "createNumber(String) LANG-1060d failed"); assertEquals(Float.valueOf("001234.56"), NumberUtils.createNumber("001234.56"), "createNumber(String) LANG-1060e failed"); assertEquals(Float.valueOf("+001234.56"), NumberUtils.createNumber("+001234.56"), "createNumber(String) LANG-1060f failed"); assertEquals(Float.valueOf("-001234.56"), NumberUtils.createNumber("-001234.56"), "createNumber(String) LANG-1060g failed"); assertEquals(Float.valueOf("0000.10"), NumberUtils.createNumber("0000.10"), "createNumber(String) LANG-1060h failed"); assertEquals(Float.valueOf("001.1E20"), NumberUtils.createNumber("001.1E20"), "createNumber(String) LANG-1060i failed"); assertEquals(Float.valueOf("+001.1E20"), NumberUtils.createNumber("+001.1E20"), "createNumber(String) LANG-1060j failed"); assertEquals(Float.valueOf("-001.1E20"), NumberUtils.createNumber("-001.1E20"), "createNumber(String) LANG-1060k failed"); assertEquals(Double.valueOf("001.1E200"), NumberUtils.createNumber("001.1E200"), "createNumber(String) LANG-1060l failed"); assertEquals(Double.valueOf("+001.1E200"), NumberUtils.createNumber("+001.1E200"), "createNumber(String) LANG-1060m failed"); assertEquals(Double.valueOf("-001.1E200"), NumberUtils.createNumber("-001.1E200"), "createNumber(String) LANG-1060n failed"); // LANG-1645 assertEquals(Integer.decode("+0xF"), NumberUtils.createNumber("+0xF"), "createNumber(String) LANG-1645a failed"); assertEquals(Long.decode("+0xFFFFFFFF"), NumberUtils.createNumber("+0xFFFFFFFF"), "createNumber(String) LANG-1645b failed"); assertEquals(new BigInteger("+FFFFFFFFFFFFFFFF", 16), NumberUtils.createNumber("+0xFFFFFFFFFFFFFFFF"), "createNumber(String) LANG-1645c failed"); } @Test // Check that the code fails to create a valid number when preceded by -- rather than - public void testCreateNumberFailure_1() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("--1.1E-700F")); } @Test // Check that the code fails to create a valid number when both e and E are present (with decimal) public void testCreateNumberFailure_2() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("-1.1E+0-7e00")); } @Test // Check that the code fails to create a valid number when both e and E are present (no decimal) public void testCreateNumberFailure_3() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("-11E+0-7e00")); } @Test // Check that the code fails to create a valid number when both e and E are present (no decimal) public void testCreateNumberFailure_4() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("1eE+00001")); } @Test // Check that the code fails to create a valid number when there are multiple trailing 'f' characters (LANG-1205) public void testCreateNumberFailure_5() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("1234.5ff")); } @Test // Check that the code fails to create a valid number when there are multiple trailing 'F' characters (LANG-1205) public void testCreateNumberFailure_6() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("1234.5FF")); } @Test // Check that the code fails to create a valid number when there are multiple trailing 'd' characters (LANG-1205) public void testCreateNumberFailure_7() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("1234.5dd")); } @Test // Check that the code fails to create a valid number when there are multiple trailing 'D' characters (LANG-1205) public void testCreateNumberFailure_8() { assertThrows(NumberFormatException.class, () -> NumberUtils.createNumber("1234.5DD")); } // Tests to show when magnitude causes switch to next Number type // Will probably need to be adjusted if code is changed to check precision (LANG-693) @Test public void testCreateNumberMagnitude() { // Test Float.MAX_VALUE, and same with +1 in final digit to check conversion changes to next Number type assertEquals(Float.valueOf(Float.MAX_VALUE), NumberUtils.createNumber("3.4028235e+38")); assertEquals(Double.valueOf(3.4028236e+38), NumberUtils.createNumber("3.4028236e+38")); // Test Double.MAX_VALUE assertEquals(Double.valueOf(Double.MAX_VALUE), NumberUtils.createNumber("1.7976931348623157e+308")); // Test with +2 in final digit (+1 does not cause roll-over to BigDecimal) assertEquals(new BigDecimal("1.7976931348623159e+308"), NumberUtils.createNumber("1.7976931348623159e+308")); // Requested type is parsed as zero but the value is not zero final Double nonZero1 = Double.valueOf(((double) Float.MIN_VALUE) / 2); assertEquals(nonZero1, NumberUtils.createNumber(nonZero1.toString())); assertEquals(nonZero1, NumberUtils.createNumber(nonZero1.toString() + "F")); // Smallest double is 4.9e-324. // Test a number with zero before and/or after the decimal place to hit edge cases. final BigDecimal nonZero2 = new BigDecimal("4.9e-325"); assertEquals(nonZero2, NumberUtils.createNumber("4.9e-325")); assertEquals(nonZero2, NumberUtils.createNumber("4.9e-325D")); final BigDecimal nonZero3 = new BigDecimal("1e-325"); assertEquals(nonZero3, NumberUtils.createNumber("1e-325")); assertEquals(nonZero3, NumberUtils.createNumber("1e-325D")); final BigDecimal nonZero4 = new BigDecimal("0.1e-325"); assertEquals(nonZero4, NumberUtils.createNumber("0.1e-325")); assertEquals(nonZero4, NumberUtils.createNumber("0.1e-325D")); assertEquals(Integer.valueOf(0x12345678), NumberUtils.createNumber("0x12345678")); assertEquals(Long.valueOf(0x123456789L), NumberUtils.createNumber("0x123456789")); assertEquals(Long.valueOf(0x7fffffffffffffffL), NumberUtils.createNumber("0x7fffffffffffffff")); // Does not appear to be a way to create a literal BigInteger of this magnitude assertEquals(new BigInteger("7fffffffffffffff0", 16), NumberUtils.createNumber("0x7fffffffffffffff0")); assertEquals(Long.valueOf(0x7fffffffffffffffL), NumberUtils.createNumber("#7fffffffffffffff")); assertEquals(new BigInteger("7fffffffffffffff0", 16), NumberUtils.createNumber("#7fffffffffffffff0")); assertEquals(Integer.valueOf(017777777777), NumberUtils.createNumber("017777777777")); // 31 bits assertEquals(Long.valueOf(037777777777L), NumberUtils.createNumber("037777777777")); // 32 bits // 63 bits assertEquals(Long.valueOf(0777777777777777777777L), NumberUtils.createNumber("0777777777777777777777")); // 64 bits assertEquals(new BigInteger("1777777777777777777777", 8), NumberUtils.createNumber("01777777777777777777777")); } /** * LANG-1646: Support the requested Number type (Long, Float, Double) of valid zero input. */ @Test public void testCreateNumberZero() { // Handle integers assertEquals(Integer.valueOf(0), NumberUtils.createNumber("0")); assertEquals(Integer.valueOf(0), NumberUtils.createNumber("-0")); assertEquals(Long.valueOf(0), NumberUtils.createNumber("0L")); assertEquals(Long.valueOf(0), NumberUtils.createNumber("-0L")); // Handle floating-point with optional leading sign, trailing exponent (eX) // and format specifier (F or D). // This should allow: 0. ; .0 ; 0.0 ; 0 (if exponent or format specifier is present) // Exponent does not matter for zero final int[] exponents = {-2345, 0, 13}; final String[] zeros = {"0.", ".0", "0.0", "0"}; final Float f0 = Float.valueOf(0); final Float fn0 = Float.valueOf(-0F); final Double d0 = Double.valueOf(0); final Double dn0 = Double.valueOf(-0D); for (final String zero : zeros) { // Assume float if no preference. // This requires a decimal point if there is no exponent. if (zero.indexOf('.') != -1) { assertCreateNumberZero(zero, f0, fn0); } for (final int exp : exponents) { assertCreateNumberZero(zero + "e" + exp, f0, fn0); } // Type preference assertCreateNumberZero(zero + "F", f0, fn0); assertCreateNumberZero(zero + "D", d0, dn0); for (final int exp : exponents) { final String number = zero + "e" + exp; assertCreateNumberZero(number + "F", f0, fn0); assertCreateNumberZero(number + "D", d0, dn0); } } } private static void assertCreateNumberZero(final String number, final Object zero, final Object negativeZero) { assertEquals(zero, NumberUtils.createNumber(number), () -> "Input: " + number); assertEquals(zero, NumberUtils.createNumber("+" + number), () -> "Input: +" + number); assertEquals(negativeZero, NumberUtils.createNumber("-" + number), () -> "Input: -" + number); } /** * Tests isCreatable(String) and tests that createNumber(String) returns a valid number iff isCreatable(String) * returns false. */ @Test public void testIsCreatable() { compareIsCreatableWithCreateNumber("12345", true); compareIsCreatableWithCreateNumber("1234.5", true); compareIsCreatableWithCreateNumber(".12345", true); compareIsCreatableWithCreateNumber("1234E5", true); compareIsCreatableWithCreateNumber("1234E+5", true); compareIsCreatableWithCreateNumber("1234E-5", true); compareIsCreatableWithCreateNumber("123.4E5", true); compareIsCreatableWithCreateNumber("-1234", true); compareIsCreatableWithCreateNumber("-1234.5", true); compareIsCreatableWithCreateNumber("-.12345", true); compareIsCreatableWithCreateNumber("-1234E5", true); compareIsCreatableWithCreateNumber("0", true); compareIsCreatableWithCreateNumber("0.1", true); // LANG-1216 compareIsCreatableWithCreateNumber("-0", true); compareIsCreatableWithCreateNumber("01234", true); compareIsCreatableWithCreateNumber("-01234", true); compareIsCreatableWithCreateNumber("-0xABC123", true); compareIsCreatableWithCreateNumber("-0x0", true); compareIsCreatableWithCreateNumber("123.4E21D", true); compareIsCreatableWithCreateNumber("-221.23F", true); compareIsCreatableWithCreateNumber("22338L", true); compareIsCreatableWithCreateNumber(null, false); compareIsCreatableWithCreateNumber("", false); compareIsCreatableWithCreateNumber(" ", false); compareIsCreatableWithCreateNumber("\r\n\t", false); compareIsCreatableWithCreateNumber("--2.3", false); compareIsCreatableWithCreateNumber(".12.3", false); compareIsCreatableWithCreateNumber("-123E", false); compareIsCreatableWithCreateNumber("-123E+-212", false); compareIsCreatableWithCreateNumber("-123E2.12", false); compareIsCreatableWithCreateNumber("0xGF", false); compareIsCreatableWithCreateNumber("0xFAE-1", false); compareIsCreatableWithCreateNumber(".", false); compareIsCreatableWithCreateNumber("-0ABC123", false); compareIsCreatableWithCreateNumber("123.4E-D", false); compareIsCreatableWithCreateNumber("123.4ED", false); compareIsCreatableWithCreateNumber("1234E5l", false); compareIsCreatableWithCreateNumber("11a", false); compareIsCreatableWithCreateNumber("1a", false); compareIsCreatableWithCreateNumber("a", false); compareIsCreatableWithCreateNumber("11g", false); compareIsCreatableWithCreateNumber("11z", false); compareIsCreatableWithCreateNumber("11def", false); compareIsCreatableWithCreateNumber("11d11", false); compareIsCreatableWithCreateNumber("11 11", false); compareIsCreatableWithCreateNumber(" 1111", false); compareIsCreatableWithCreateNumber("1111 ", false); compareIsCreatableWithCreateNumber("2.", true); // LANG-521 compareIsCreatableWithCreateNumber("1.1L", false); // LANG-664 compareIsCreatableWithCreateNumber("+0xF", true); // LANG-1645 compareIsCreatableWithCreateNumber("+0xFFFFFFFF", true); // LANG-1645 compareIsCreatableWithCreateNumber("+0xFFFFFFFFFFFFFFFF", true); // LANG-1645 compareIsCreatableWithCreateNumber(".0", true); // LANG-1646 compareIsCreatableWithCreateNumber("0.", true); // LANG-1646 compareIsCreatableWithCreateNumber("0.D", true); // LANG-1646 compareIsCreatableWithCreateNumber("0e1", true); // LANG-1646 compareIsCreatableWithCreateNumber("0e1D", true); // LANG-1646 compareIsCreatableWithCreateNumber(".D", false); // LANG-1646 compareIsCreatableWithCreateNumber(".e10", false); // LANG-1646 compareIsCreatableWithCreateNumber(".e10D", false); // LANG-1646 } @Test public void testIsDigits() { assertFalse(NumberUtils.isDigits(null), "isDigits(null) failed"); assertFalse(NumberUtils.isDigits(""), "isDigits('') failed"); assertTrue(NumberUtils.isDigits("12345"), "isDigits(String) failed"); assertFalse(NumberUtils.isDigits("1234.5"), "isDigits(String) neg 1 failed"); assertFalse(NumberUtils.isDigits("1ab"), "isDigits(String) neg 3 failed"); assertFalse(NumberUtils.isDigits("abc"), "isDigits(String) neg 4 failed"); } /** * Tests isCreatable(String) and tests that createNumber(String) returns a valid number iff isCreatable(String) * returns false. */ @Test public void testIsNumber() { compareIsNumberWithCreateNumber("12345", true); compareIsNumberWithCreateNumber("1234.5", true); compareIsNumberWithCreateNumber(".12345", true); compareIsNumberWithCreateNumber("1234E5", true); compareIsNumberWithCreateNumber("1234E+5", true); compareIsNumberWithCreateNumber("1234E-5", true); compareIsNumberWithCreateNumber("123.4E5", true); compareIsNumberWithCreateNumber("-1234", true); compareIsNumberWithCreateNumber("-1234.5", true); compareIsNumberWithCreateNumber("-.12345", true); compareIsNumberWithCreateNumber("-0001.12345", true); compareIsNumberWithCreateNumber("-000.12345", true); compareIsNumberWithCreateNumber("+00.12345", true); compareIsNumberWithCreateNumber("+0002.12345", true); compareIsNumberWithCreateNumber("-1234E5", true); compareIsNumberWithCreateNumber("0", true); compareIsNumberWithCreateNumber("-0", true); compareIsNumberWithCreateNumber("01234", true); compareIsNumberWithCreateNumber("-01234", true); compareIsNumberWithCreateNumber("-0xABC123", true); compareIsNumberWithCreateNumber("-0x0", true); compareIsNumberWithCreateNumber("123.4E21D", true); compareIsNumberWithCreateNumber("-221.23F", true); compareIsNumberWithCreateNumber("22338L", true); compareIsNumberWithCreateNumber(null, false); compareIsNumberWithCreateNumber("", false); compareIsNumberWithCreateNumber(" ", false); compareIsNumberWithCreateNumber("\r\n\t", false); compareIsNumberWithCreateNumber("--2.3", false); compareIsNumberWithCreateNumber(".12.3", false); compareIsNumberWithCreateNumber("-123E", false); compareIsNumberWithCreateNumber("-123E+-212", false); compareIsNumberWithCreateNumber("-123E2.12", false); compareIsNumberWithCreateNumber("0xGF", false); compareIsNumberWithCreateNumber("0xFAE-1", false); compareIsNumberWithCreateNumber(".", false); compareIsNumberWithCreateNumber("-0ABC123", false); compareIsNumberWithCreateNumber("123.4E-D", false); compareIsNumberWithCreateNumber("123.4ED", false); compareIsNumberWithCreateNumber("+000E.12345", false); compareIsNumberWithCreateNumber("-000E.12345", false); compareIsNumberWithCreateNumber("1234E5l", false); compareIsNumberWithCreateNumber("11a", false); compareIsNumberWithCreateNumber("1a", false); compareIsNumberWithCreateNumber("a", false); compareIsNumberWithCreateNumber("11g", false); compareIsNumberWithCreateNumber("11z", false); compareIsNumberWithCreateNumber("11def", false); compareIsNumberWithCreateNumber("11d11", false); compareIsNumberWithCreateNumber("11 11", false); compareIsNumberWithCreateNumber(" 1111", false); compareIsNumberWithCreateNumber("1111 ", false); compareIsNumberWithCreateNumber("2.", true); // LANG-521 compareIsNumberWithCreateNumber("1.1L", false); // LANG-664 compareIsNumberWithCreateNumber("+0xF", true); // LANG-1645 compareIsNumberWithCreateNumber("+0xFFFFFFFF", true); // LANG-1645 compareIsNumberWithCreateNumber("+0xFFFFFFFFFFFFFFFF", true); // LANG-1645 compareIsNumberWithCreateNumber(".0", true); // LANG-1646 compareIsNumberWithCreateNumber("0.", true); // LANG-1646 compareIsNumberWithCreateNumber("0.D", true); // LANG-1646 compareIsNumberWithCreateNumber("0e1", true); // LANG-1646 compareIsNumberWithCreateNumber("0e1D", true); // LANG-1646 compareIsNumberWithCreateNumber(".D", false); // LANG-1646 compareIsNumberWithCreateNumber(".e10", false); // LANG-1646 compareIsNumberWithCreateNumber(".e10D", false); // LANG-1646 } @Test public void testIsNumberLANG1252() { compareIsNumberWithCreateNumber("+2", true); compareIsNumberWithCreateNumber("+2.0", true); } @Test public void testIsNumberLANG1385() { compareIsNumberWithCreateNumber("L", false); } @Test public void testIsNumberLANG971() { compareIsNumberWithCreateNumber("0085", false); compareIsNumberWithCreateNumber("085", false); compareIsNumberWithCreateNumber("08", false); compareIsNumberWithCreateNumber("07", true); compareIsNumberWithCreateNumber("00", true); } @Test public void testIsNumberLANG972() { compareIsNumberWithCreateNumber("0xABCD", true); compareIsNumberWithCreateNumber("0XABCD", true); } @Test public void testIsNumberLANG992() { compareIsNumberWithCreateNumber("0.0", true); compareIsNumberWithCreateNumber("0.4790", true); } @Test public void testIsParsable() { assertFalse(NumberUtils.isParsable(null)); assertFalse(NumberUtils.isParsable("")); assertFalse(NumberUtils.isParsable("0xC1AB")); assertFalse(NumberUtils.isParsable("65CBA2")); assertFalse(NumberUtils.isParsable("pendro")); assertFalse(NumberUtils.isParsable("64, 2")); assertFalse(NumberUtils.isParsable("64.2.2")); assertFalse(NumberUtils.isParsable("64.")); assertFalse(NumberUtils.isParsable("64L")); assertFalse(NumberUtils.isParsable("-")); assertFalse(NumberUtils.isParsable("--2")); assertTrue(NumberUtils.isParsable("64.2")); assertTrue(NumberUtils.isParsable("64")); assertTrue(NumberUtils.isParsable("018")); assertTrue(NumberUtils.isParsable(".18")); assertTrue(NumberUtils.isParsable("-65")); assertTrue(NumberUtils.isParsable("-018")); assertTrue(NumberUtils.isParsable("-018.2")); assertTrue(NumberUtils.isParsable("-.236")); } @Test public void testLang1087() { // no sign cases assertEquals(Float.class, NumberUtils.createNumber("0.0").getClass()); assertEquals(Float.valueOf("0.0"), NumberUtils.createNumber("0.0")); // explicit positive sign cases assertEquals(Float.class, NumberUtils.createNumber("+0.0").getClass()); assertEquals(Float.valueOf("+0.0"), NumberUtils.createNumber("+0.0")); // negative sign cases assertEquals(Float.class, NumberUtils.createNumber("-0.0").getClass()); assertEquals(Float.valueOf("-0.0"), NumberUtils.createNumber("-0.0")); } @Test public void testLANG1252() { compareIsCreatableWithCreateNumber("+2", true); compareIsCreatableWithCreateNumber("+2.0", true); } @Test public void testLang300() { NumberUtils.createNumber("-1l"); NumberUtils.createNumber("01l"); NumberUtils.createNumber("1l"); } @Test public void testLang381() { assertTrue(Double.isNaN(NumberUtils.min(1.2, 2.5, Double.NaN))); assertTrue(Double.isNaN(NumberUtils.max(1.2, 2.5, Double.NaN))); assertTrue(Float.isNaN(NumberUtils.min(1.2f, 2.5f, Float.NaN))); assertTrue(Float.isNaN(NumberUtils.max(1.2f, 2.5f, Float.NaN))); final double[] a = {1.2, Double.NaN, 3.7, 27.0, 42.0, Double.NaN}; assertTrue(Double.isNaN(NumberUtils.max(a))); assertTrue(Double.isNaN(NumberUtils.min(a))); final double[] b = {Double.NaN, 1.2, Double.NaN, 3.7, 27.0, 42.0, Double.NaN}; assertTrue(Double.isNaN(NumberUtils.max(b))); assertTrue(Double.isNaN(NumberUtils.min(b))); final float[] aF = {1.2f, Float.NaN, 3.7f, 27.0f, 42.0f, Float.NaN}; assertTrue(Float.isNaN(NumberUtils.max(aF))); final float[] bF = {Float.NaN, 1.2f, Float.NaN, 3.7f, 27.0f, 42.0f, Float.NaN}; assertTrue(Float.isNaN(NumberUtils.max(bF))); } @Test public void TestLang747() { assertEquals(Integer.valueOf(0x8000), NumberUtils.createNumber("0x8000")); assertEquals(Integer.valueOf(0x80000), NumberUtils.createNumber("0x80000")); assertEquals(Integer.valueOf(0x800000), NumberUtils.createNumber("0x800000")); assertEquals(Integer.valueOf(0x8000000), NumberUtils.createNumber("0x8000000")); assertEquals(Integer.valueOf(0x7FFFFFFF), NumberUtils.createNumber("0x7FFFFFFF")); assertEquals(Long.valueOf(0x80000000L), NumberUtils.createNumber("0x80000000")); assertEquals(Long.valueOf(0xFFFFFFFFL), NumberUtils.createNumber("0xFFFFFFFF")); // Leading zero tests assertEquals(Integer.valueOf(0x8000000), NumberUtils.createNumber("0x08000000")); assertEquals(Integer.valueOf(0x7FFFFFFF), NumberUtils.createNumber("0x007FFFFFFF")); assertEquals(Long.valueOf(0x80000000L), NumberUtils.createNumber("0x080000000")); assertEquals(Long.valueOf(0xFFFFFFFFL), NumberUtils.createNumber("0x00FFFFFFFF")); assertEquals(Long.valueOf(0x800000000L), NumberUtils.createNumber("0x800000000")); assertEquals(Long.valueOf(0x8000000000L), NumberUtils.createNumber("0x8000000000")); assertEquals(Long.valueOf(0x80000000000L), NumberUtils.createNumber("0x80000000000")); assertEquals(Long.valueOf(0x800000000000L), NumberUtils.createNumber("0x800000000000")); assertEquals(Long.valueOf(0x8000000000000L), NumberUtils.createNumber("0x8000000000000")); assertEquals(Long.valueOf(0x80000000000000L), NumberUtils.createNumber("0x80000000000000")); assertEquals(Long.valueOf(0x800000000000000L), NumberUtils.createNumber("0x800000000000000")); assertEquals(Long.valueOf(0x7FFFFFFFFFFFFFFFL), NumberUtils.createNumber("0x7FFFFFFFFFFFFFFF")); // N.B. Cannot use a hex constant such as 0x8000000000000000L here as that is interpreted as a negative long assertEquals(new BigInteger("8000000000000000", 16), NumberUtils.createNumber("0x8000000000000000")); assertEquals(new BigInteger("FFFFFFFFFFFFFFFF", 16), NumberUtils.createNumber("0xFFFFFFFFFFFFFFFF")); // Leading zero tests assertEquals(Long.valueOf(0x80000000000000L), NumberUtils.createNumber("0x00080000000000000")); assertEquals(Long.valueOf(0x800000000000000L), NumberUtils.createNumber("0x0800000000000000")); assertEquals(Long.valueOf(0x7FFFFFFFFFFFFFFFL), NumberUtils.createNumber("0x07FFFFFFFFFFFFFFF")); // N.B. Cannot use a hex constant such as 0x8000000000000000L here as that is interpreted as a negative long assertEquals(new BigInteger("8000000000000000", 16), NumberUtils.createNumber("0x00008000000000000000")); assertEquals(new BigInteger("FFFFFFFFFFFFFFFF", 16), NumberUtils.createNumber("0x0FFFFFFFFFFFFFFFF")); } @Test public void testLANG971() { compareIsCreatableWithCreateNumber("0085", false); compareIsCreatableWithCreateNumber("085", false); compareIsCreatableWithCreateNumber("08", false); compareIsCreatableWithCreateNumber("07", true); compareIsCreatableWithCreateNumber("00", true); } @Test public void testLANG972() { compareIsCreatableWithCreateNumber("0xABCD", true); compareIsCreatableWithCreateNumber("0XABCD", true); } @Test public void testLANG992() { compareIsCreatableWithCreateNumber("0.0", true); compareIsCreatableWithCreateNumber("0.4790", true); } @Test public void testMaxByte() { assertEquals((byte) 5, NumberUtils.max((byte) 5), "max(byte[]) failed for array length 1"); assertEquals((byte) 9, NumberUtils.max((byte) 6, (byte) 9), "max(byte[]) failed for array length 2"); assertEquals((byte) 10, NumberUtils.max((byte) -10, (byte) -5, (byte) 0, (byte) 5, (byte) 10), "max(byte[]) failed for array length 5"); assertEquals((byte) 10, NumberUtils.max((byte) -10, (byte) -5, (byte) 0, (byte) 5, (byte) 10)); assertEquals((byte) 10, NumberUtils.max((byte) -5, (byte) 0, (byte) 10, (byte) 5, (byte) -10)); } @Test public void testMaxByte_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::max); } @Test public void testMaxByte_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.max((byte[]) null)); } @Test public void testMaxDouble() { final double[] d = null; assertThrows(NullPointerException.class, () -> NumberUtils.max(d), "No exception was thrown for null input."); assertThrows(IllegalArgumentException.class, NumberUtils::max, "No exception was thrown for empty input."); assertEquals(5.1f, NumberUtils.max(5.1f), "max(double[]) failed for array length 1"); assertEquals(9.2f, NumberUtils.max(6.3f, 9.2f), "max(double[]) failed for array length 2"); assertEquals(10.4f, NumberUtils.max(-10.5f, -5.6f, 0, 5.7f, 10.4f), "max(double[]) failed for float length 5"); assertEquals(10, NumberUtils.max(-10, -5, 0, 5, 10), 0.0001); assertEquals(10, NumberUtils.max(-5, 0, 10, 5, -10), 0.0001); } @Test public void testMaxDouble_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::max); } @Test public void testMaxDouble_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.max((double[]) null)); } @Test public void testMaxFloat() { assertEquals(5.1f, NumberUtils.max(5.1f), "max(float[]) failed for array length 1"); assertEquals(9.2f, NumberUtils.max(6.3f, 9.2f), "max(float[]) failed for array length 2"); assertEquals(10.4f, NumberUtils.max(-10.5f, -5.6f, 0, 5.7f, 10.4f), "max(float[]) failed for float length 5"); assertEquals(10, NumberUtils.max(-10, -5, 0, 5, 10), 0.0001f); assertEquals(10, NumberUtils.max(-5, 0, 10, 5, -10), 0.0001f); } @Test public void testMaxFloat_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::max); } @Test public void testMaxFloat_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.max((float[]) null)); } @Test public void testMaximumByte() { final byte low = 123; final byte mid = 123 + 1; final byte high = 123 + 2; assertEquals(high, NumberUtils.max(low, mid, high), "maximum(byte, byte, byte) 1 failed"); assertEquals(high, NumberUtils.max(mid, low, high), "maximum(byte, byte, byte) 2 failed"); assertEquals(high, NumberUtils.max(mid, high, low), "maximum(byte, byte, byte) 3 failed"); assertEquals(high, NumberUtils.max(high, mid, high), "maximum(byte, byte, byte) 4 failed"); } @Test public void testMaximumDouble() { final double low = 12.3; final double mid = 12.3 + 1; final double high = 12.3 + 2; assertEquals(high, NumberUtils.max(low, mid, high), 0.0001); assertEquals(high, NumberUtils.max(mid, low, high), 0.0001); assertEquals(high, NumberUtils.max(mid, high, low), 0.0001); assertEquals(mid, NumberUtils.max(low, mid, low), 0.0001); assertEquals(high, NumberUtils.max(high, mid, high), 0.0001); } @Test public void testMaximumFloat() { final float low = 12.3f; final float mid = 12.3f + 1; final float high = 12.3f + 2; assertEquals(high, NumberUtils.max(low, mid, high), 0.0001f); assertEquals(high, NumberUtils.max(mid, low, high), 0.0001f); assertEquals(high, NumberUtils.max(mid, high, low), 0.0001f); assertEquals(mid, NumberUtils.max(low, mid, low), 0.0001f); assertEquals(high, NumberUtils.max(high, mid, high), 0.0001f); } @Test public void testMaximumInt() { assertEquals(12345, NumberUtils.max(12345, 12345 - 1, 12345 - 2), "maximum(int, int, int) 1 failed"); assertEquals(12345, NumberUtils.max(12345 - 1, 12345, 12345 - 2), "maximum(int, int, int) 2 failed"); assertEquals(12345, NumberUtils.max(12345 - 1, 12345 - 2, 12345), "maximum(int, int, int) 3 failed"); assertEquals(12345, NumberUtils.max(12345 - 1, 12345, 12345), "maximum(int, int, int) 4 failed"); assertEquals(12345, NumberUtils.max(12345, 12345, 12345), "maximum(int, int, int) 5 failed"); } @Test public void testMaximumLong() { assertEquals(12345L, NumberUtils.max(12345L, 12345L - 1L, 12345L - 2L), "maximum(long, long, long) 1 failed"); assertEquals(12345L, NumberUtils.max(12345L - 1L, 12345L, 12345L - 2L), "maximum(long, long, long) 2 failed"); assertEquals(12345L, NumberUtils.max(12345L - 1L, 12345L - 2L, 12345L), "maximum(long, long, long) 3 failed"); assertEquals(12345L, NumberUtils.max(12345L - 1L, 12345L, 12345L), "maximum(long, long, long) 4 failed"); assertEquals(12345L, NumberUtils.max(12345L, 12345L, 12345L), "maximum(long, long, long) 5 failed"); } @Test public void testMaximumShort() { final short low = 1234; final short mid = 1234 + 1; final short high = 1234 + 2; assertEquals(high, NumberUtils.max(low, mid, high), "maximum(short, short, short) 1 failed"); assertEquals(high, NumberUtils.max(mid, low, high), "maximum(short, short, short) 2 failed"); assertEquals(high, NumberUtils.max(mid, high, low), "maximum(short, short, short) 3 failed"); assertEquals(high, NumberUtils.max(high, mid, high), "maximum(short, short, short) 4 failed"); } @Test public void testMaxInt() { assertEquals(5, NumberUtils.max(5), "max(int[]) failed for array length 1"); assertEquals(9, NumberUtils.max(6, 9), "max(int[]) failed for array length 2"); assertEquals(10, NumberUtils.max(-10, -5, 0, 5, 10), "max(int[]) failed for array length 5"); assertEquals(10, NumberUtils.max(-10, -5, 0, 5, 10)); assertEquals(10, NumberUtils.max(-5, 0, 10, 5, -10)); } @Test public void testMaxInt_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::max); } @Test public void testMaxInt_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.max((int[]) null)); } @Test public void testMaxLong() { assertEquals(5L, NumberUtils.max(5L), "max(long[]) failed for array length 1"); assertEquals(9L, NumberUtils.max(6L, 9L), "max(long[]) failed for array length 2"); assertEquals(10L, NumberUtils.max(-10L, -5L, 0L, 5L, 10L), "max(long[]) failed for array length 5"); assertEquals(10L, NumberUtils.max(-10L, -5L, 0L, 5L, 10L)); assertEquals(10L, NumberUtils.max(-5L, 0L, 10L, 5L, -10L)); } @Test public void testMaxLong_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::max); } @Test public void testMaxLong_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.max((long[]) null)); } @Test public void testMaxShort() { assertEquals((short) 5, NumberUtils.max((short) 5), "max(short[]) failed for array length 1"); assertEquals((short) 9, NumberUtils.max((short) 6, (short) 9), "max(short[]) failed for array length 2"); assertEquals((short) 10, NumberUtils.max((short) -10, (short) -5, (short) 0, (short) 5, (short) 10), "max(short[]) failed for array length 5"); assertEquals((short) 10, NumberUtils.max((short) -10, (short) -5, (short) 0, (short) 5, (short) 10)); assertEquals((short) 10, NumberUtils.max((short) -5, (short) 0, (short) 10, (short) 5, (short) -10)); } @Test public void testMaxShort_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::max); } @Test public void testMaxShort_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.max((short[]) null)); } @Test public void testMinByte() { assertEquals((byte) 5, NumberUtils.min((byte) 5), "min(byte[]) failed for array length 1"); assertEquals((byte) 6, NumberUtils.min((byte) 6, (byte) 9), "min(byte[]) failed for array length 2"); assertEquals((byte) -10, NumberUtils.min((byte) -10, (byte) -5, (byte) 0, (byte) 5, (byte) 10)); assertEquals((byte) -10, NumberUtils.min((byte) -5, (byte) 0, (byte) -10, (byte) 5, (byte) 10)); } @Test public void testMinByte_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::min); } @Test public void testMinByte_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.min((byte[]) null)); } @Test public void testMinDouble() { assertEquals(5.12, NumberUtils.min(5.12), "min(double[]) failed for array length 1"); assertEquals(6.23, NumberUtils.min(6.23, 9.34), "min(double[]) failed for array length 2"); assertEquals(-10.45, NumberUtils.min(-10.45, -5.56, 0, 5.67, 10.78), "min(double[]) failed for array length 5"); assertEquals(-10, NumberUtils.min(-10, -5, 0, 5, 10), 0.0001); assertEquals(-10, NumberUtils.min(-5, 0, -10, 5, 10), 0.0001); assertEquals(5.12, NumberUtils.min(6.11, 5.12)); } @Test public void testMinDouble_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::min); } @Test public void testMinDouble_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.min((double[]) null)); } @Test public void testMinFloat() { assertEquals(5.9f, NumberUtils.min(5.9f), "min(float[]) failed for array length 1"); assertEquals(6.8f, NumberUtils.min(6.8f, 9.7f), "min(float[]) failed for array length 2"); assertEquals(-10.6f, NumberUtils.min(-10.6f, -5.5f, 0, 5.4f, 10.3f), "min(float[]) failed for array length 5"); assertEquals(-10, NumberUtils.min(-10, -5, 0, 5, 10), 0.0001f); assertEquals(-10, NumberUtils.min(-5, 0, -10, 5, 10), 0.0001f); assertEquals(Float.NaN, NumberUtils.min(6.8f, Float.NaN)); assertEquals(3.7f, NumberUtils.min(6.8f, 3.7f)); } @Test public void testMinFloat_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::min); } @Test public void testMinFloat_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.min((float[]) null)); } @Test public void testMinimumByte() { final byte low = 123; final byte mid = 123 + 1; final byte high = 123 + 2; assertEquals(low, NumberUtils.min(low, mid, high), "minimum(byte, byte, byte) 1 failed"); assertEquals(low, NumberUtils.min(mid, low, high), "minimum(byte, byte, byte) 2 failed"); assertEquals(low, NumberUtils.min(mid, high, low), "minimum(byte, byte, byte) 3 failed"); assertEquals(low, NumberUtils.min(low, mid, low), "minimum(byte, byte, byte) 4 failed"); } @Test public void testMinimumDouble() { final double low = 12.3; final double mid = 12.3 + 1; final double high = 12.3 + 2; assertEquals(low, NumberUtils.min(low, mid, high), 0.0001); assertEquals(low, NumberUtils.min(mid, low, high), 0.0001); assertEquals(low, NumberUtils.min(mid, high, low), 0.0001); assertEquals(low, NumberUtils.min(low, mid, low), 0.0001); assertEquals(mid, NumberUtils.min(high, mid, high), 0.0001); } @Test public void testMinimumFloat() { final float low = 12.3f; final float mid = 12.3f + 1; final float high = 12.3f + 2; assertEquals(low, NumberUtils.min(low, mid, high), 0.0001f); assertEquals(low, NumberUtils.min(mid, low, high), 0.0001f); assertEquals(low, NumberUtils.min(mid, high, low), 0.0001f); assertEquals(low, NumberUtils.min(low, mid, low), 0.0001f); assertEquals(mid, NumberUtils.min(high, mid, high), 0.0001f); } @Test public void testMinimumInt() { assertEquals(12345, NumberUtils.min(12345, 12345 + 1, 12345 + 2), "minimum(int, int, int) 1 failed"); assertEquals(12345, NumberUtils.min(12345 + 1, 12345, 12345 + 2), "minimum(int, int, int) 2 failed"); assertEquals(12345, NumberUtils.min(12345 + 1, 12345 + 2, 12345), "minimum(int, int, int) 3 failed"); assertEquals(12345, NumberUtils.min(12345 + 1, 12345, 12345), "minimum(int, int, int) 4 failed"); assertEquals(12345, NumberUtils.min(12345, 12345, 12345), "minimum(int, int, int) 5 failed"); } @Test public void testMinimumLong() { assertEquals(12345L, NumberUtils.min(12345L, 12345L + 1L, 12345L + 2L), "minimum(long, long, long) 1 failed"); assertEquals(12345L, NumberUtils.min(12345L + 1L, 12345L, 12345 + 2L), "minimum(long, long, long) 2 failed"); assertEquals(12345L, NumberUtils.min(12345L + 1L, 12345L + 2L, 12345L), "minimum(long, long, long) 3 failed"); assertEquals(12345L, NumberUtils.min(12345L + 1L, 12345L, 12345L), "minimum(long, long, long) 4 failed"); assertEquals(12345L, NumberUtils.min(12345L, 12345L, 12345L), "minimum(long, long, long) 5 failed"); } @Test public void testMinimumShort() { final short low = 1234; final short mid = 1234 + 1; final short high = 1234 + 2; assertEquals(low, NumberUtils.min(low, mid, high), "minimum(short, short, short) 1 failed"); assertEquals(low, NumberUtils.min(mid, low, high), "minimum(short, short, short) 2 failed"); assertEquals(low, NumberUtils.min(mid, high, low), "minimum(short, short, short) 3 failed"); assertEquals(low, NumberUtils.min(low, mid, low), "minimum(short, short, short) 4 failed"); } @Test public void testMinInt() { assertEquals(5, NumberUtils.min(5), "min(int[]) failed for array length 1"); assertEquals(6, NumberUtils.min(6, 9), "min(int[]) failed for array length 2"); assertEquals(-10, NumberUtils.min(-10, -5, 0, 5, 10)); assertEquals(-10, NumberUtils.min(-5, 0, -10, 5, 10)); } @Test public void testMinInt_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::min); } @Test public void testMinInt_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.min((int[]) null)); } @Test public void testMinLong() { assertEquals(5L, NumberUtils.min(5L), "min(long[]) failed for array length 1"); assertEquals(6L, NumberUtils.min(6L, 9L), "min(long[]) failed for array length 2"); assertEquals(-10L, NumberUtils.min(-10L, -5L, 0L, 5L, 10L)); assertEquals(-10L, NumberUtils.min(-5L, 0L, -10L, 5L, 10L)); } @Test public void testMinLong_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::min); } @Test public void testMinLong_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.min((long[]) null)); } @Test public void testMinShort() { assertEquals((short) 5, NumberUtils.min((short) 5), "min(short[]) failed for array length 1"); assertEquals((short) 6, NumberUtils.min((short) 6, (short) 9), "min(short[]) failed for array length 2"); assertEquals((short) -10, NumberUtils.min((short) -10, (short) -5, (short) 0, (short) 5, (short) 10)); assertEquals((short) -10, NumberUtils.min((short) -5, (short) 0, (short) -10, (short) 5, (short) 10)); } @Test public void testMinShort_emptyArray() { assertThrows(IllegalArgumentException.class, NumberUtils::min); } @Test public void testMinShort_nullArray() { assertThrows(NullPointerException.class, () -> NumberUtils.min((short[]) null)); } /** * Test for {(@link NumberUtils#createNumber(String)} */ @Test public void testStringCreateNumberEnsureNoPrecisionLoss() { final String shouldBeFloat = "1.23"; final String shouldBeDouble = "3.40282354e+38"; final String shouldBeBigDecimal = "1.797693134862315759e+308"; assertTrue(NumberUtils.createNumber(shouldBeFloat) instanceof Float); assertTrue(NumberUtils.createNumber(shouldBeDouble) instanceof Double); assertTrue(NumberUtils.createNumber(shouldBeBigDecimal) instanceof BigDecimal); // LANG-1060 assertTrue(NumberUtils.createNumber("001.12") instanceof Float); assertTrue(NumberUtils.createNumber("-001.12") instanceof Float); assertTrue(NumberUtils.createNumber("+001.12") instanceof Float); assertTrue(NumberUtils.createNumber("003.40282354e+38") instanceof Double); assertTrue(NumberUtils.createNumber("-003.40282354e+38") instanceof Double); assertTrue(NumberUtils.createNumber("+003.40282354e+38") instanceof Double); assertTrue(NumberUtils.createNumber("0001.797693134862315759e+308") instanceof BigDecimal); assertTrue(NumberUtils.createNumber("-001.797693134862315759e+308") instanceof BigDecimal); assertTrue(NumberUtils.createNumber("+001.797693134862315759e+308") instanceof BigDecimal); //LANG-1613 assertTrue(NumberUtils.createNumber(Double.toString(Double.MIN_NORMAL)) instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MIN_NORMAL) + "D") instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MIN_NORMAL) + "F") instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MIN_VALUE)) instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MIN_VALUE) + "D") instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MIN_VALUE) + "F") instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MAX_VALUE)) instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MAX_VALUE) + "D") instanceof Double); assertTrue(NumberUtils.createNumber(Double.toString(Double.MAX_VALUE) + "F") instanceof Double); assertTrue(NumberUtils.createNumber("4.9e-324D") instanceof Double); assertTrue(NumberUtils.createNumber("4.9e-324F") instanceof Double); } /** * Test for {@link NumberUtils#toDouble(String)}. */ @Test public void testStringToDoubleString() { assertEquals(NumberUtils.toDouble("-1.2345"), -1.2345d, "toDouble(String) 1 failed"); assertEquals(1.2345d, NumberUtils.toDouble("1.2345"), "toDouble(String) 2 failed"); assertEquals(0.0d, NumberUtils.toDouble("abc"), "toDouble(String) 3 failed"); // LANG-1060 assertEquals(NumberUtils.toDouble("-001.2345"), -1.2345d, "toDouble(String) 4 failed"); assertEquals(1.2345d, NumberUtils.toDouble("+001.2345"), "toDouble(String) 5 failed"); assertEquals(1.2345d, NumberUtils.toDouble("001.2345"), "toDouble(String) 6 failed"); assertEquals(0d, NumberUtils.toDouble("000.00000"), "toDouble(String) 7 failed"); assertEquals(NumberUtils.toDouble(Double.MAX_VALUE + ""), Double.MAX_VALUE, "toDouble(Double.MAX_VALUE) failed"); assertEquals(NumberUtils.toDouble(Double.MIN_VALUE + ""), Double.MIN_VALUE, "toDouble(Double.MIN_VALUE) failed"); assertEquals(0.0d, NumberUtils.toDouble(""), "toDouble(empty) failed"); assertEquals(0.0d, NumberUtils.toDouble((String) null), "toDouble(null) failed"); } /** * Test for {@link NumberUtils#toDouble(String, double)}. */ @Test public void testStringToDoubleStringD() { assertEquals(1.2345d, NumberUtils.toDouble("1.2345", 5.1d), "toDouble(String, int) 1 failed"); assertEquals(5.0d, NumberUtils.toDouble("a", 5.0d), "toDouble(String, int) 2 failed"); // LANG-1060 assertEquals(1.2345d, NumberUtils.toDouble("001.2345", 5.1d), "toDouble(String, int) 3 failed"); assertEquals(NumberUtils.toDouble("-001.2345", 5.1d), -1.2345d, "toDouble(String, int) 4 failed"); assertEquals(1.2345d, NumberUtils.toDouble("+001.2345", 5.1d), "toDouble(String, int) 5 failed"); assertEquals(0d, NumberUtils.toDouble("000.00", 5.1d), "toDouble(String, int) 7 failed"); } /** * Test for {@link NumberUtils#toByte(String)}. */ @Test public void testToByteString() { assertEquals(123, NumberUtils.toByte("123"), "toByte(String) 1 failed"); assertEquals(0, NumberUtils.toByte("abc"), "toByte(String) 2 failed"); assertEquals(0, NumberUtils.toByte(""), "toByte(empty) failed"); assertEquals(0, NumberUtils.toByte(null), "toByte(null) failed"); } /** * Test for {@link NumberUtils#toByte(String, byte)}. */ @Test public void testToByteStringI() { assertEquals(123, NumberUtils.toByte("123", (byte) 5), "toByte(String, byte) 1 failed"); assertEquals(5, NumberUtils.toByte("12.3", (byte) 5), "toByte(String, byte) 2 failed"); } /** * Test for {@link NumberUtils#toFloat(String)}. */ @Test public void testToFloatString() { assertEquals(NumberUtils.toFloat("-1.2345"), -1.2345f, "toFloat(String) 1 failed"); assertEquals(1.2345f, NumberUtils.toFloat("1.2345"), "toFloat(String) 2 failed"); assertEquals(0.0f, NumberUtils.toFloat("abc"), "toFloat(String) 3 failed"); // LANG-1060 assertEquals(NumberUtils.toFloat("-001.2345"), -1.2345f, "toFloat(String) 4 failed"); assertEquals(1.2345f, NumberUtils.toFloat("+001.2345"), "toFloat(String) 5 failed"); assertEquals(1.2345f, NumberUtils.toFloat("001.2345"), "toFloat(String) 6 failed"); assertEquals(0f, NumberUtils.toFloat("000.00"), "toFloat(String) 7 failed"); assertEquals(NumberUtils.toFloat(Float.MAX_VALUE + ""), Float.MAX_VALUE, "toFloat(Float.MAX_VALUE) failed"); assertEquals(NumberUtils.toFloat(Float.MIN_VALUE + ""), Float.MIN_VALUE, "toFloat(Float.MIN_VALUE) failed"); assertEquals(0.0f, NumberUtils.toFloat(""), "toFloat(empty) failed"); assertEquals(0.0f, NumberUtils.toFloat(null), "toFloat(null) failed"); } /** * Test for {@link NumberUtils#toFloat(String, float)}. */ @Test public void testToFloatStringF() { assertEquals(1.2345f, NumberUtils.toFloat("1.2345", 5.1f), "toFloat(String, int) 1 failed"); assertEquals(5.0f, NumberUtils.toFloat("a", 5.0f), "toFloat(String, int) 2 failed"); // LANG-1060 assertEquals(5.0f, NumberUtils.toFloat("-001Z.2345", 5.0f), "toFloat(String, int) 3 failed"); assertEquals(5.0f, NumberUtils.toFloat("+001AB.2345", 5.0f), "toFloat(String, int) 4 failed"); assertEquals(5.0f, NumberUtils.toFloat("001Z.2345", 5.0f), "toFloat(String, int) 5 failed"); } /** * Test for {@link NumberUtils#toInt(String)}. */ @Test public void testToIntString() { assertEquals(12345, NumberUtils.toInt("12345"), "toInt(String) 1 failed"); assertEquals(0, NumberUtils.toInt("abc"), "toInt(String) 2 failed"); assertEquals(0, NumberUtils.toInt(""), "toInt(empty) failed"); assertEquals(0, NumberUtils.toInt(null), "toInt(null) failed"); } /** * Test for {@link NumberUtils#toInt(String, int)}. */ @Test public void testToIntStringI() { assertEquals(12345, NumberUtils.toInt("12345", 5), "toInt(String, int) 1 failed"); assertEquals(5, NumberUtils.toInt("1234.5", 5), "toInt(String, int) 2 failed"); } /** * Test for {@link NumberUtils#toLong(String)}. */ @Test public void testToLongString() { assertEquals(12345L, NumberUtils.toLong("12345"), "toLong(String) 1 failed"); assertEquals(0L, NumberUtils.toLong("abc"), "toLong(String) 2 failed"); assertEquals(0L, NumberUtils.toLong("1L"), "toLong(String) 3 failed"); assertEquals(0L, NumberUtils.toLong("1l"), "toLong(String) 4 failed"); assertEquals(NumberUtils.toLong(Long.MAX_VALUE + ""), Long.MAX_VALUE, "toLong(Long.MAX_VALUE) failed"); assertEquals(NumberUtils.toLong(Long.MIN_VALUE + ""), Long.MIN_VALUE, "toLong(Long.MIN_VALUE) failed"); assertEquals(0L, NumberUtils.toLong(""), "toLong(empty) failed"); assertEquals(0L, NumberUtils.toLong(null), "toLong(null) failed"); } /** * Test for {@link NumberUtils#toLong(String, long)}. */ @Test public void testToLongStringL() { assertEquals(12345L, NumberUtils.toLong("12345", 5L), "toLong(String, long) 1 failed"); assertEquals(5L, NumberUtils.toLong("1234.5", 5L), "toLong(String, long) 2 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(BigDecimal)}. */ @Test public void testToScaledBigDecimalBigDecimal() { assertEquals(NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(123.456)), BigDecimal.valueOf(123.46), "toScaledBigDecimal(BigDecimal) 1 failed"); // Test RoundingMode.HALF_EVEN default rounding. assertEquals(NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(23.515)), BigDecimal.valueOf(23.52), "toScaledBigDecimal(BigDecimal) 2 failed"); assertEquals(NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(23.525)), BigDecimal.valueOf(23.52), "toScaledBigDecimal(BigDecimal) 3 failed"); assertEquals("2352.00", NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(23.525)).multiply(BigDecimal.valueOf(100)).toString(), "toScaledBigDecimal(BigDecimal) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((BigDecimal) null), BigDecimal.ZERO, "toScaledBigDecimal(BigDecimal) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(BigDecimal, int, RoundingMode)}. */ @Test public void testToScaledBigDecimalBigDecimalIRM() { assertEquals(NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(123.456), 1, RoundingMode.CEILING), BigDecimal.valueOf(123.5), "toScaledBigDecimal(BigDecimal, int, RoundingMode) 1 failed"); assertEquals(NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(23.5159), 3, RoundingMode.FLOOR), BigDecimal.valueOf(23.515), "toScaledBigDecimal(BigDecimal, int, RoundingMode) 2 failed"); assertEquals(NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(23.525), 2, RoundingMode.HALF_UP), BigDecimal.valueOf(23.53), "toScaledBigDecimal(BigDecimal, int, RoundingMode) 3 failed"); assertEquals("23521.0000", NumberUtils.toScaledBigDecimal(BigDecimal.valueOf(23.521), 4, RoundingMode.HALF_EVEN) .multiply(BigDecimal.valueOf(1000)).toString(), "toScaledBigDecimal(BigDecimal, int, RoundingMode) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((BigDecimal) null, 2, RoundingMode.HALF_UP), BigDecimal.ZERO, "toScaledBigDecimal(BigDecimal, int, RoundingMode) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(Double)}. */ @Test public void testToScaledBigDecimalDouble() { assertEquals(NumberUtils.toScaledBigDecimal(Double.valueOf(123.456d)), BigDecimal.valueOf(123.46), "toScaledBigDecimal(Double) 1 failed"); // Test RoundingMode.HALF_EVEN default rounding. assertEquals(NumberUtils.toScaledBigDecimal(Double.valueOf(23.515d)), BigDecimal.valueOf(23.52), "toScaledBigDecimal(Double) 2 failed"); assertEquals(NumberUtils.toScaledBigDecimal(Double.valueOf(23.525d)), BigDecimal.valueOf(23.52), "toScaledBigDecimal(Double) 3 failed"); assertEquals("2352.00", NumberUtils.toScaledBigDecimal(Double.valueOf(23.525d)).multiply(BigDecimal.valueOf(100)).toString(), "toScaledBigDecimal(Double) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((Double) null), BigDecimal.ZERO, "toScaledBigDecimal(Double) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(Double, int, RoundingMode)}. */ @Test public void testToScaledBigDecimalDoubleIRM() { assertEquals(NumberUtils.toScaledBigDecimal(Double.valueOf(123.456d), 1, RoundingMode.CEILING), BigDecimal.valueOf(123.5), "toScaledBigDecimal(Double, int, RoundingMode) 1 failed"); assertEquals(NumberUtils.toScaledBigDecimal(Double.valueOf(23.5159d), 3, RoundingMode.FLOOR), BigDecimal.valueOf(23.515), "toScaledBigDecimal(Double, int, RoundingMode) 2 failed"); assertEquals(NumberUtils.toScaledBigDecimal(Double.valueOf(23.525d), 2, RoundingMode.HALF_UP), BigDecimal.valueOf(23.53), "toScaledBigDecimal(Double, int, RoundingMode) 3 failed"); assertEquals("23521.0000", NumberUtils.toScaledBigDecimal(Double.valueOf(23.521d), 4, RoundingMode.HALF_EVEN) .multiply(BigDecimal.valueOf(1000)).toString(), "toScaledBigDecimal(Double, int, RoundingMode) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((Double) null, 2, RoundingMode.HALF_UP), BigDecimal.ZERO, "toScaledBigDecimal(Double, int, RoundingMode) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(Float)}. */ @Test public void testToScaledBigDecimalFloat() { assertEquals(NumberUtils.toScaledBigDecimal(Float.valueOf(123.456f)), BigDecimal.valueOf(123.46), "toScaledBigDecimal(Float) 1 failed"); // Test RoundingMode.HALF_EVEN default rounding. assertEquals(NumberUtils.toScaledBigDecimal(Float.valueOf(23.515f)), BigDecimal.valueOf(23.51), "toScaledBigDecimal(Float) 2 failed"); // Note. NumberUtils.toScaledBigDecimal(Float.valueOf(23.515f)).equals(BigDecimal.valueOf(23.51)) // because of roundoff error. It is ok. assertEquals(NumberUtils.toScaledBigDecimal(Float.valueOf(23.525f)), BigDecimal.valueOf(23.52), "toScaledBigDecimal(Float) 3 failed"); assertEquals("2352.00", NumberUtils.toScaledBigDecimal(Float.valueOf(23.525f)).multiply(BigDecimal.valueOf(100)).toString(), "toScaledBigDecimal(Float) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((Float) null), BigDecimal.ZERO, "toScaledBigDecimal(Float) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(Float, int, RoundingMode)}. */ @Test public void testToScaledBigDecimalFloatIRM() { assertEquals(NumberUtils.toScaledBigDecimal(Float.valueOf(123.456f), 1, RoundingMode.CEILING), BigDecimal.valueOf(123.5), "toScaledBigDecimal(Float, int, RoundingMode) 1 failed"); assertEquals(NumberUtils.toScaledBigDecimal(Float.valueOf(23.5159f), 3, RoundingMode.FLOOR), BigDecimal.valueOf(23.515), "toScaledBigDecimal(Float, int, RoundingMode) 2 failed"); // The following happens due to roundoff error. We're ok with this. assertEquals(NumberUtils.toScaledBigDecimal(Float.valueOf(23.525f), 2, RoundingMode.HALF_UP), BigDecimal.valueOf(23.52), "toScaledBigDecimal(Float, int, RoundingMode) 3 failed"); assertEquals("23521.0000", NumberUtils.toScaledBigDecimal(Float.valueOf(23.521f), 4, RoundingMode.HALF_EVEN) .multiply(BigDecimal.valueOf(1000)).toString(), "toScaledBigDecimal(Float, int, RoundingMode) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((Float) null, 2, RoundingMode.HALF_UP), BigDecimal.ZERO, "toScaledBigDecimal(Float, int, RoundingMode) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(Double)}. */ @Test public void testToScaledBigDecimalString() { assertEquals(NumberUtils.toScaledBigDecimal("123.456"), BigDecimal.valueOf(123.46), "toScaledBigDecimal(String) 1 failed"); // Test RoundingMode.HALF_EVEN default rounding. assertEquals(NumberUtils.toScaledBigDecimal("23.515"), BigDecimal.valueOf(23.52), "toScaledBigDecimal(String) 2 failed"); assertEquals(NumberUtils.toScaledBigDecimal("23.525"), BigDecimal.valueOf(23.52), "toScaledBigDecimal(String) 3 failed"); assertEquals("2352.00", NumberUtils.toScaledBigDecimal("23.525").multiply(BigDecimal.valueOf(100)).toString(), "toScaledBigDecimal(String) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((String) null), BigDecimal.ZERO, "toScaledBigDecimal(String) 5 failed"); } /** * Test for {@link NumberUtils#toScaledBigDecimal(Double, int, RoundingMode)}. */ @Test public void testToScaledBigDecimalStringIRM() { assertEquals(NumberUtils.toScaledBigDecimal("123.456", 1, RoundingMode.CEILING), BigDecimal.valueOf(123.5), "toScaledBigDecimal(String, int, RoundingMode) 1 failed"); assertEquals(NumberUtils.toScaledBigDecimal("23.5159", 3, RoundingMode.FLOOR), BigDecimal.valueOf(23.515), "toScaledBigDecimal(String, int, RoundingMode) 2 failed"); assertEquals(NumberUtils.toScaledBigDecimal("23.525", 2, RoundingMode.HALF_UP), BigDecimal.valueOf(23.53), "toScaledBigDecimal(String, int, RoundingMode) 3 failed"); assertEquals( "23521.0000", NumberUtils.toScaledBigDecimal("23.521", 4, RoundingMode.HALF_EVEN) .multiply(BigDecimal.valueOf(1000)).toString(), "toScaledBigDecimal(String, int, RoundingMode) 4 failed"); assertEquals(NumberUtils.toScaledBigDecimal((String) null, 2, RoundingMode.HALF_UP), BigDecimal.ZERO, "toScaledBigDecimal(String, int, RoundingMode) 5 failed"); } /** * Test for {@link NumberUtils#toShort(String)}. */ @Test public void testToShortString() { assertEquals(12345, NumberUtils.toShort("12345"), "toShort(String) 1 failed"); assertEquals(0, NumberUtils.toShort("abc"), "toShort(String) 2 failed"); assertEquals(0, NumberUtils.toShort(""), "toShort(empty) failed"); assertEquals(0, NumberUtils.toShort(null), "toShort(null) failed"); } /** * Test for {@link NumberUtils#toShort(String, short)}. */ @Test public void testToShortStringI() { assertEquals(12345, NumberUtils.toShort("12345", (short) 5), "toShort(String, short) 1 failed"); assertEquals(5, NumberUtils.toShort("1234.5", (short) 5), "toShort(String, short) 2 failed"); } }