/* * 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; import static org.hamcrest.MatcherAssert.assertThat; import static org.hamcrest.Matchers.allOf; import static org.hamcrest.Matchers.greaterThanOrEqualTo; import static org.hamcrest.Matchers.is; import static org.hamcrest.Matchers.lessThanOrEqualTo; 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.assertThrows; import static org.junit.jupiter.api.Assertions.assertTrue; import static org.junit.jupiter.api.Assertions.fail; import java.lang.reflect.Constructor; import java.lang.reflect.Modifier; import java.nio.charset.Charset; import java.nio.charset.StandardCharsets; import java.util.Random; import org.junit.jupiter.api.Test; /** * Unit tests {@link org.apache.commons.lang3.RandomStringUtils}. */ public class RandomStringUtilsTest extends AbstractLangTest { @Test public void testConstructor() { assertNotNull(new RandomStringUtils()); final Constructor[] cons = RandomStringUtils.class.getDeclaredConstructors(); assertEquals(1, cons.length); assertTrue(Modifier.isPublic(cons[0].getModifiers())); assertTrue(Modifier.isPublic(RandomStringUtils.class.getModifiers())); assertFalse(Modifier.isFinal(RandomStringUtils.class.getModifiers())); } /** * Test the implementation */ @Test public void testRandomStringUtils() { String r1 = RandomStringUtils.random(50); assertEquals(50, r1.length(), "random(50) length"); String r2 = RandomStringUtils.random(50); assertEquals(50, r2.length(), "random(50) length"); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.randomAscii(50); assertEquals(50, r1.length(), "randomAscii(50) length"); for (int i = 0; i < r1.length(); i++) { assertTrue(r1.charAt(i) >= 32 && r1.charAt(i) <= 127, "char between 32 and 127"); } r2 = RandomStringUtils.randomAscii(50); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.randomAlphabetic(50); assertEquals(50, r1.length(), "randomAlphabetic(50)"); for (int i = 0; i < r1.length(); i++) { assertTrue(Character.isLetter(r1.charAt(i)) && !Character.isDigit(r1.charAt(i)), "r1 contains alphabetic"); } r2 = RandomStringUtils.randomAlphabetic(50); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.randomAlphanumeric(50); assertEquals(50, r1.length(), "randomAlphanumeric(50)"); for (int i = 0; i < r1.length(); i++) { assertTrue(Character.isLetterOrDigit(r1.charAt(i)), "r1 contains alphanumeric"); } r2 = RandomStringUtils.randomAlphabetic(50); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.randomGraph(50); assertEquals(50, r1.length(), "randomGraph(50) length"); for (int i = 0; i < r1.length(); i++) { assertTrue(r1.charAt(i) >= 33 && r1.charAt(i) <= 126, "char between 33 and 126"); } r2 = RandomStringUtils.randomGraph(50); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.randomNumeric(50); assertEquals(50, r1.length(), "randomNumeric(50)"); for (int i = 0; i < r1.length(); i++) { assertTrue(Character.isDigit(r1.charAt(i)) && !Character.isLetter(r1.charAt(i)), "r1 contains numeric"); } r2 = RandomStringUtils.randomNumeric(50); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.randomPrint(50); assertEquals(50, r1.length(), "randomPrint(50) length"); for (int i = 0; i < r1.length(); i++) { assertTrue(r1.charAt(i) >= 32 && r1.charAt(i) <= 126, "char between 32 and 126"); } r2 = RandomStringUtils.randomPrint(50); assertFalse(r1.equals(r2), "!r1.equals(r2)"); String set = "abcdefg"; r1 = RandomStringUtils.random(50, set); assertEquals(50, r1.length(), "random(50, \"abcdefg\")"); for (int i = 0; i < r1.length(); i++) { assertTrue(set.indexOf(r1.charAt(i)) > -1, "random char in set"); } r2 = RandomStringUtils.random(50, set); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.random(50, (String) null); assertEquals(50, r1.length(), "random(50) length"); r2 = RandomStringUtils.random(50, (String) null); assertEquals(50, r2.length(), "random(50) length"); assertFalse(r1.equals(r2), "!r1.equals(r2)"); set = "stuvwxyz"; r1 = RandomStringUtils.random(50, set.toCharArray()); assertEquals(50, r1.length(), "random(50, \"stuvwxyz\")"); for (int i = 0; i < r1.length(); i++) { assertTrue(set.indexOf(r1.charAt(i)) > -1, "random char in set"); } r2 = RandomStringUtils.random(50, set); assertFalse(r1.equals(r2), "!r1.equals(r2)"); r1 = RandomStringUtils.random(50, (char[]) null); assertEquals(50, r1.length(), "random(50) length"); r2 = RandomStringUtils.random(50, (char[]) null); assertEquals(50, r2.length(), "random(50) length"); assertFalse(r1.equals(r2), "!r1.equals(r2)"); final long seedMillis = System.currentTimeMillis(); r1 = RandomStringUtils.random(50, 0, 0, true, true, null, new Random(seedMillis)); r2 = RandomStringUtils.random(50, 0, 0, true, true, null, new Random(seedMillis)); assertEquals(r1, r2, "r1.equals(r2)"); r1 = RandomStringUtils.random(0); assertEquals("", r1, "random(0).equals(\"\")"); } @Test public void testLANG805() { final long seedMillis = System.currentTimeMillis(); assertEquals("aaa", RandomStringUtils.random(3, 0, 0, false, false, new char[]{'a'}, new Random(seedMillis))); } @Test public void testLANG807() { final IllegalArgumentException ex = assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(3, 5, 5, false, false)); final String msg = ex.getMessage(); assertTrue(msg.contains("start"), "Message (" + msg + ") must contain 'start'"); assertTrue(msg.contains("end"), "Message (" + msg + ") must contain 'end'"); } @Test public void testExceptions() { final char[] DUMMY = {'a'}; // valid char array assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1)); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1, true, true)); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1, DUMMY)); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(1, new char[0])); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1, "")); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1, (String) null)); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1, 'a', 'z', false, false)); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(-1, 'a', 'z', false, false, DUMMY)); assertThrows( IllegalArgumentException.class, () -> RandomStringUtils.random(-1, 'a', 'z', false, false, DUMMY, new Random())); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(8, 32, 48, false, true)); assertThrows(IllegalArgumentException.class, () -> RandomStringUtils.random(8, 32, 65, true, false)); } /** * Make sure boundary alphanumeric characters are generated by randomAlphaNumeric * This test will fail randomly with probability = 6 * (61/62)**1000 ~ 5.2E-7 */ @Test public void testRandomAlphaNumeric() { final char[] testChars = {'a', 'z', 'A', 'Z', '0', '9'}; final boolean[] found = {false, false, false, false, false, false}; for (int i = 0; i < 100; i++) { final String randString = RandomStringUtils.randomAlphanumeric(10); for (int j = 0; j < testChars.length; j++) { if (randString.indexOf(testChars[j]) > 0) { found[j] = true; } } } for (int i = 0; i < testChars.length; i++) { assertTrue(found[i], "alphanumeric character not generated in 1000 attempts: " + testChars[i] + " -- repeated failures indicate a problem "); } } /** * Make sure '0' and '9' are generated by randomNumeric * This test will fail randomly with probability = 2 * (9/10)**1000 ~ 3.5E-46 */ @Test public void testRandomNumeric() { final char[] testChars = {'0', '9'}; final boolean[] found = {false, false}; for (int i = 0; i < 100; i++) { final String randString = RandomStringUtils.randomNumeric(10); for (int j = 0; j < testChars.length; j++) { if (randString.indexOf(testChars[j]) > 0) { found[j] = true; } } } for (int i = 0; i < testChars.length; i++) { assertTrue(found[i], "digit not generated in 1000 attempts: " + testChars[i] + " -- repeated failures indicate a problem "); } } /** * Make sure boundary alpha characters are generated by randomAlphabetic * This test will fail randomly with probability = 4 * (51/52)**1000 ~ 1.58E-8 */ @Test public void testRandomAlphabetic() { final char[] testChars = {'a', 'z', 'A', 'Z'}; final boolean[] found = {false, false, false, false}; for (int i = 0; i < 100; i++) { final String randString = RandomStringUtils.randomAlphabetic(10); for (int j = 0; j < testChars.length; j++) { if (randString.indexOf(testChars[j]) > 0) { found[j] = true; } } } for (int i = 0; i < testChars.length; i++) { assertTrue(found[i], "alphanumeric character not generated in 1000 attempts: " + testChars[i] + " -- repeated failures indicate a problem "); } } /** * Make sure 32 and 127 are generated by randomNumeric * This test will fail randomly with probability = 2*(95/96)**1000 ~ 5.7E-5 */ @Test public void testRandomAscii() { final char[] testChars = {(char) 32, (char) 126}; final boolean[] found = {false, false}; for (int i = 0; i < 100; i++) { final String randString = RandomStringUtils.randomAscii(10); for (int j = 0; j < testChars.length; j++) { if (randString.indexOf(testChars[j]) > 0) { found[j] = true; } } } for (int i = 0; i < testChars.length; i++) { assertTrue(found[i], "ascii character not generated in 1000 attempts: " + (int) testChars[i] + " -- repeated failures indicate a problem"); } } @Test public void testRandomAsciiRange() { final int expectedMinLengthInclusive = 1; final int expectedMaxLengthExclusive = 11; final String pattern = "^\\p{ASCII}{" + expectedMinLengthInclusive + ',' + expectedMaxLengthExclusive + "}$"; int maxCreatedLength = expectedMinLengthInclusive; int minCreatedLength = expectedMaxLengthExclusive - 1; for (int i = 0; i < 1000; i++) { final String s = RandomStringUtils.randomAscii(expectedMinLengthInclusive, expectedMaxLengthExclusive); assertThat("within range", s.length(), allOf(greaterThanOrEqualTo(expectedMinLengthInclusive), lessThanOrEqualTo(expectedMaxLengthExclusive - 1))); assertTrue(s.matches(pattern), s); if (s.length() < minCreatedLength) { minCreatedLength = s.length(); } if (s.length() > maxCreatedLength) { maxCreatedLength = s.length(); } } assertThat("min generated, may fail randomly rarely", minCreatedLength, is(expectedMinLengthInclusive)); assertThat("max generated, may fail randomly rarely", maxCreatedLength, is(expectedMaxLengthExclusive - 1)); } @Test public void testRandomAlphabeticRange() { final int expectedMinLengthInclusive = 1; final int expectedMaxLengthExclusive = 11; final String pattern = "^\\p{Alpha}{" + expectedMinLengthInclusive + ',' + expectedMaxLengthExclusive + "}$"; int maxCreatedLength = expectedMinLengthInclusive; int minCreatedLength = expectedMaxLengthExclusive - 1; for (int i = 0; i < 1000; i++) { final String s = RandomStringUtils.randomAlphabetic(expectedMinLengthInclusive, expectedMaxLengthExclusive); assertThat("within range", s.length(), allOf(greaterThanOrEqualTo(expectedMinLengthInclusive), lessThanOrEqualTo(expectedMaxLengthExclusive - 1))); assertTrue(s.matches(pattern), s); if (s.length() < minCreatedLength) { minCreatedLength = s.length(); } if (s.length() > maxCreatedLength) { maxCreatedLength = s.length(); } } assertThat("min generated, may fail randomly rarely", minCreatedLength, is(expectedMinLengthInclusive)); assertThat("max generated, may fail randomly rarely", maxCreatedLength, is(expectedMaxLengthExclusive - 1)); } @Test public void testRandomAlphanumericRange() { final int expectedMinLengthInclusive = 1; final int expectedMaxLengthExclusive = 11; final String pattern = "^\\p{Alnum}{" + expectedMinLengthInclusive + ',' + expectedMaxLengthExclusive + "}$"; int maxCreatedLength = expectedMinLengthInclusive; int minCreatedLength = expectedMaxLengthExclusive - 1; for (int i = 0; i < 1000; i++) { final String s = RandomStringUtils.randomAlphanumeric(expectedMinLengthInclusive, expectedMaxLengthExclusive); assertThat("within range", s.length(), allOf(greaterThanOrEqualTo(expectedMinLengthInclusive), lessThanOrEqualTo(expectedMaxLengthExclusive - 1))); assertTrue(s.matches(pattern), s); if (s.length() < minCreatedLength) { minCreatedLength = s.length(); } if (s.length() > maxCreatedLength) { maxCreatedLength = s.length(); } } assertThat("min generated, may fail randomly rarely", minCreatedLength, is(expectedMinLengthInclusive)); assertThat("max generated, may fail randomly rarely", maxCreatedLength, is(expectedMaxLengthExclusive - 1)); } @Test public void testRandomGraphRange() { final int expectedMinLengthInclusive = 1; final int expectedMaxLengthExclusive = 11; final String pattern = "^\\p{Graph}{" + expectedMinLengthInclusive + ',' + expectedMaxLengthExclusive + "}$"; int maxCreatedLength = expectedMinLengthInclusive; int minCreatedLength = expectedMaxLengthExclusive - 1; for (int i = 0; i < 1000; i++) { final String s = RandomStringUtils.randomGraph(expectedMinLengthInclusive, expectedMaxLengthExclusive); assertThat("within range", s.length(), allOf(greaterThanOrEqualTo(expectedMinLengthInclusive), lessThanOrEqualTo(expectedMaxLengthExclusive - 1))); assertTrue(s.matches(pattern), s); if (s.length() < minCreatedLength) { minCreatedLength = s.length(); } if (s.length() > maxCreatedLength) { maxCreatedLength = s.length(); } } assertThat("min generated, may fail randomly rarely", minCreatedLength, is(expectedMinLengthInclusive)); assertThat("max generated, may fail randomly rarely", maxCreatedLength, is(expectedMaxLengthExclusive - 1)); } @Test public void testRandomNumericRange() { final int expectedMinLengthInclusive = 1; final int expectedMaxLengthExclusive = 11; final String pattern = "^\\p{Digit}{" + expectedMinLengthInclusive + ',' + expectedMaxLengthExclusive + "}$"; int maxCreatedLength = expectedMinLengthInclusive; int minCreatedLength = expectedMaxLengthExclusive - 1; for (int i = 0; i < 1000; i++) { final String s = RandomStringUtils.randomNumeric(expectedMinLengthInclusive, expectedMaxLengthExclusive); assertThat("within range", s.length(), allOf(greaterThanOrEqualTo(expectedMinLengthInclusive), lessThanOrEqualTo(expectedMaxLengthExclusive - 1))); assertTrue(s.matches(pattern), s); if (s.length() < minCreatedLength) { minCreatedLength = s.length(); } if (s.length() > maxCreatedLength) { maxCreatedLength = s.length(); } } assertThat("min generated, may fail randomly rarely", minCreatedLength, is(expectedMinLengthInclusive)); assertThat("max generated, may fail randomly rarely", maxCreatedLength, is(expectedMaxLengthExclusive - 1)); } @Test public void testRandomPrintRange() { final int expectedMinLengthInclusive = 1; final int expectedMaxLengthExclusive = 11; final String pattern = "^\\p{Print}{" + expectedMinLengthInclusive + ',' + expectedMaxLengthExclusive + "}$"; int maxCreatedLength = expectedMinLengthInclusive; int minCreatedLength = expectedMaxLengthExclusive - 1; for (int i = 0; i < 1000; i++) { final String s = RandomStringUtils.randomPrint(expectedMinLengthInclusive, expectedMaxLengthExclusive); assertThat("within range", s.length(), allOf(greaterThanOrEqualTo(expectedMinLengthInclusive), lessThanOrEqualTo(expectedMaxLengthExclusive - 1))); assertTrue(s.matches(pattern), s); if (s.length() < minCreatedLength) { minCreatedLength = s.length(); } if (s.length() > maxCreatedLength) { maxCreatedLength = s.length(); } } assertThat("min generated, may fail randomly rarely", minCreatedLength, is(expectedMinLengthInclusive)); assertThat("max generated, may fail randomly rarely", maxCreatedLength, is(expectedMaxLengthExclusive - 1)); } /** * Test homogeneity of random strings generated -- * i.e., test that characters show up with expected frequencies * in generated strings. Will fail randomly about 1 in 1000 times. * Repeated failures indicate a problem. */ @Test public void testRandomStringUtilsHomog() { final String set = "abc"; final char[] chars = set.toCharArray(); String gen = ""; final int[] counts = {0, 0, 0}; final int[] expected = {200, 200, 200}; for (int i = 0; i< 100; i++) { gen = RandomStringUtils.random(6, chars); for (int j = 0; j < 6; j++) { switch (gen.charAt(j)) { case 'a': { counts[0]++; break; } case 'b': { counts[1]++; break; } case 'c': { counts[2]++; break; } default: { fail("generated character not in set"); } } } } // Perform chi-square test with df = 3-1 = 2, testing at .001 level assertTrue(chiSquare(expected, counts) < 13.82, "test homogeneity -- will fail about 1 in 1000 times"); } /** * Computes Chi-Square statistic given observed and expected counts * @param observed array of observed frequency counts * @param expected array of expected frequency counts */ private double chiSquare(final int[] expected, final int[] observed) { double sumSq = 0.0d; double dev = 0.0d; for (int i = 0; i < observed.length; i++) { dev = observed[i] - expected[i]; sumSq += dev * dev / expected[i]; } return sumSq; } /** * Checks if the string got by {@link RandomStringUtils#random(int)} * can be converted to UTF-8 and back without loss. * * @see LANG-100 */ @Test public void testLang100() { final int size = 5000; final Charset charset = StandardCharsets.UTF_8; final String orig = RandomStringUtils.random(size); final byte[] bytes = orig.getBytes(charset); final String copy = new String(bytes, charset); // for a verbose compare: for (int i=0; i < orig.length() && i < copy.length(); i++) { final char o = orig.charAt(i); final char c = copy.charAt(i); assertEquals(o, c, "differs at " + i + "(" + Integer.toHexString(Character.valueOf(o).hashCode()) + "," + Integer.toHexString(Character.valueOf(c).hashCode()) + ")"); } // compare length also assertEquals(orig.length(), copy.length()); // just to be complete assertEquals(orig, copy); } /** * Test for LANG-1286. Creates situation where old code would * overflow a char and result in a code point outside the specified * range. */ @Test public void testCharOverflow() { final int start = Character.MAX_VALUE; final int end = Integer.MAX_VALUE; @SuppressWarnings("serial") final Random fixedRandom = new Random() { @Override public int nextInt(final int n) { // Prevents selection of 'start' as the character return super.nextInt(n - 1) + 1; } }; final String result = RandomStringUtils.random(2, start, end, false, false, null, fixedRandom); final int c = result.codePointAt(0); assertTrue(c >= start && c < end, String.format("Character '%d' not in range [%d,%d).", c, start, end)); } }