package org.apache.lucene.util;
import org.junit.BeforeClass;
/**
* 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.
*/
import java.nio.CharBuffer;
import java.nio.ByteBuffer;
public class TestIndexableBinaryStringTools extends LuceneTestCase {
private static int NUM_RANDOM_TESTS;
private static int MAX_RANDOM_BINARY_LENGTH;
@BeforeClass
public static void beforeClass() throws Exception {
NUM_RANDOM_TESTS = atLeast(200);
MAX_RANDOM_BINARY_LENGTH = atLeast(300);
}
/** @deprecated remove this test for Lucene 4.0 */
@Deprecated
public void testSingleBinaryRoundTripNIO() {
byte[] binary = new byte[]
{ (byte)0x23, (byte)0x98, (byte)0x13, (byte)0xE4, (byte)0x76, (byte)0x41,
(byte)0xB2, (byte)0xC9, (byte)0x7F, (byte)0x0A, (byte)0xA6, (byte)0xD8 };
ByteBuffer binaryBuf = ByteBuffer.wrap(binary);
CharBuffer encoded = IndexableBinaryStringTools.encode(binaryBuf);
ByteBuffer decoded = IndexableBinaryStringTools.decode(encoded);
assertEquals("Round trip decode/decode returned different results:"
+ System.getProperty("line.separator")
+ "original: " + binaryDumpNIO(binaryBuf)
+ System.getProperty("line.separator")
+ " encoded: " + charArrayDumpNIO(encoded)
+ System.getProperty("line.separator")
+ " decoded: " + binaryDumpNIO(decoded),
binaryBuf, decoded);
}
public void testSingleBinaryRoundTrip() {
byte[] binary = new byte[] { (byte) 0x23, (byte) 0x98, (byte) 0x13,
(byte) 0xE4, (byte) 0x76, (byte) 0x41, (byte) 0xB2, (byte) 0xC9,
(byte) 0x7F, (byte) 0x0A, (byte) 0xA6, (byte) 0xD8 };
int encodedLen = IndexableBinaryStringTools.getEncodedLength(binary, 0,
binary.length);
char encoded[] = new char[encodedLen];
IndexableBinaryStringTools.encode(binary, 0, binary.length, encoded, 0,
encoded.length);
int decodedLen = IndexableBinaryStringTools.getDecodedLength(encoded, 0,
encoded.length);
byte decoded[] = new byte[decodedLen];
IndexableBinaryStringTools.decode(encoded, 0, encoded.length, decoded, 0,
decoded.length);
assertEquals("Round trip decode/decode returned different results:"
+ System.getProperty("line.separator") + "original: "
+ binaryDump(binary, binary.length)
+ System.getProperty("line.separator") + " encoded: "
+ charArrayDump(encoded, encoded.length)
+ System.getProperty("line.separator") + " decoded: "
+ binaryDump(decoded, decoded.length),
binaryDump(binary, binary.length), binaryDump(decoded, decoded.length));
}
/** @deprecated remove this test for Lucene 4.0 */
@Deprecated
public void testEncodedSortabilityNIO() {
byte[] originalArray1 = new byte[MAX_RANDOM_BINARY_LENGTH];
ByteBuffer originalBuf1 = ByteBuffer.wrap(originalArray1);
char[] originalString1 = new char[MAX_RANDOM_BINARY_LENGTH];
CharBuffer originalStringBuf1 = CharBuffer.wrap(originalString1);
char[] encoded1 = new char[IndexableBinaryStringTools.getEncodedLength(originalBuf1)];
CharBuffer encodedBuf1 = CharBuffer.wrap(encoded1);
byte[] original2 = new byte[MAX_RANDOM_BINARY_LENGTH];
ByteBuffer originalBuf2 = ByteBuffer.wrap(original2);
char[] originalString2 = new char[MAX_RANDOM_BINARY_LENGTH];
CharBuffer originalStringBuf2 = CharBuffer.wrap(originalString2);
char[] encoded2 = new char[IndexableBinaryStringTools.getEncodedLength(originalBuf2)];
CharBuffer encodedBuf2 = CharBuffer.wrap(encoded2);
for (int testNum = 0 ; testNum < NUM_RANDOM_TESTS ; ++testNum) {
int numBytes1 = random.nextInt(MAX_RANDOM_BINARY_LENGTH - 1) + 1; // Min == 1
originalBuf1.limit(numBytes1);
originalStringBuf1.limit(numBytes1);
for (int byteNum = 0 ; byteNum < numBytes1 ; ++byteNum) {
int randomInt = random.nextInt(0x100);
originalArray1[byteNum] = (byte) randomInt;
originalString1[byteNum] = (char)randomInt;
}
int numBytes2 = random.nextInt(MAX_RANDOM_BINARY_LENGTH - 1) + 1; // Min == 1
originalBuf2.limit(numBytes2);
originalStringBuf2.limit(numBytes2);
for (int byteNum = 0 ; byteNum < numBytes2 ; ++byteNum) {
int randomInt = random.nextInt(0x100);
original2[byteNum] = (byte)randomInt;
originalString2[byteNum] = (char)randomInt;
}
int originalComparison = originalStringBuf1.compareTo(originalStringBuf2);
originalComparison = originalComparison < 0 ? -1 : originalComparison > 0 ? 1 : 0;
IndexableBinaryStringTools.encode(originalBuf1, encodedBuf1);
IndexableBinaryStringTools.encode(originalBuf2, encodedBuf2);
int encodedComparison = encodedBuf1.compareTo(encodedBuf2);
encodedComparison = encodedComparison < 0 ? -1 : encodedComparison > 0 ? 1 : 0;
assertEquals("Test #" + (testNum + 1)
+ ": Original bytes and encoded chars compare differently:"
+ System.getProperty("line.separator")
+ " binary 1: " + binaryDumpNIO(originalBuf1)
+ System.getProperty("line.separator")
+ " binary 2: " + binaryDumpNIO(originalBuf2)
+ System.getProperty("line.separator")
+ "encoded 1: " + charArrayDumpNIO(encodedBuf1)
+ System.getProperty("line.separator")
+ "encoded 2: " + charArrayDumpNIO(encodedBuf2)
+ System.getProperty("line.separator"),
originalComparison, encodedComparison);
}
}
public void testEncodedSortability() {
byte[] originalArray1 = new byte[MAX_RANDOM_BINARY_LENGTH];
char[] originalString1 = new char[MAX_RANDOM_BINARY_LENGTH];
char[] encoded1 = new char[MAX_RANDOM_BINARY_LENGTH * 10];
byte[] original2 = new byte[MAX_RANDOM_BINARY_LENGTH];
char[] originalString2 = new char[MAX_RANDOM_BINARY_LENGTH];
char[] encoded2 = new char[MAX_RANDOM_BINARY_LENGTH * 10];
for (int testNum = 0; testNum < NUM_RANDOM_TESTS; ++testNum) {
int numBytes1 = random.nextInt(MAX_RANDOM_BINARY_LENGTH - 1) + 1; // Min == 1
for (int byteNum = 0; byteNum < numBytes1; ++byteNum) {
int randomInt = random.nextInt(0x100);
originalArray1[byteNum] = (byte) randomInt;
originalString1[byteNum] = (char) randomInt;
}
int numBytes2 = random.nextInt(MAX_RANDOM_BINARY_LENGTH - 1) + 1; // Min == 1
for (int byteNum = 0; byteNum < numBytes2; ++byteNum) {
int randomInt = random.nextInt(0x100);
original2[byteNum] = (byte) randomInt;
originalString2[byteNum] = (char) randomInt;
}
int originalComparison = new String(originalString1, 0, numBytes1)
.compareTo(new String(originalString2, 0, numBytes2));
originalComparison = originalComparison < 0 ? -1
: originalComparison > 0 ? 1 : 0;
int encodedLen1 = IndexableBinaryStringTools.getEncodedLength(
originalArray1, 0, numBytes1);
if (encodedLen1 > encoded1.length)
encoded1 = new char[ArrayUtil.oversize(encodedLen1, RamUsageEstimator.NUM_BYTES_CHAR)];
IndexableBinaryStringTools.encode(originalArray1, 0, numBytes1, encoded1,
0, encodedLen1);
int encodedLen2 = IndexableBinaryStringTools.getEncodedLength(original2,
0, numBytes2);
if (encodedLen2 > encoded2.length)
encoded2 = new char[ArrayUtil.oversize(encodedLen2, RamUsageEstimator.NUM_BYTES_CHAR)];
IndexableBinaryStringTools.encode(original2, 0, numBytes2, encoded2, 0,
encodedLen2);
int encodedComparison = new String(encoded1, 0, encodedLen1)
.compareTo(new String(encoded2, 0, encodedLen2));
encodedComparison = encodedComparison < 0 ? -1
: encodedComparison > 0 ? 1 : 0;
assertEquals("Test #" + (testNum + 1)
+ ": Original bytes and encoded chars compare differently:"
+ System.getProperty("line.separator") + " binary 1: "
+ binaryDump(originalArray1, numBytes1)
+ System.getProperty("line.separator") + " binary 2: "
+ binaryDump(original2, numBytes2)
+ System.getProperty("line.separator") + "encoded 1: "
+ charArrayDump(encoded1, encodedLen1)
+ System.getProperty("line.separator") + "encoded 2: "
+ charArrayDump(encoded2, encodedLen2)
+ System.getProperty("line.separator"), originalComparison,
encodedComparison);
}
}
/** @deprecated remove this test for Lucene 4.0 */
@Deprecated
public void testEmptyInputNIO() {
byte[] binary = new byte[0];
CharBuffer encoded = IndexableBinaryStringTools.encode(ByteBuffer.wrap(binary));
ByteBuffer decoded = IndexableBinaryStringTools.decode(encoded);
assertNotNull("decode() returned null", decoded);
assertEquals("decoded empty input was not empty", decoded.limit(), 0);
}
public void testEmptyInput() {
byte[] binary = new byte[0];
int encodedLen = IndexableBinaryStringTools.getEncodedLength(binary, 0,
binary.length);
char[] encoded = new char[encodedLen];
IndexableBinaryStringTools.encode(binary, 0, binary.length, encoded, 0,
encoded.length);
int decodedLen = IndexableBinaryStringTools.getDecodedLength(encoded, 0,
encoded.length);
byte[] decoded = new byte[decodedLen];
IndexableBinaryStringTools.decode(encoded, 0, encoded.length, decoded, 0,
decoded.length);
assertEquals("decoded empty input was not empty", decoded.length, 0);
}
/** @deprecated remove this test for Lucene 4.0 */
@Deprecated
public void testAllNullInputNIO() {
byte[] binary = new byte[] { 0, 0, 0, 0, 0, 0, 0, 0, 0 };
ByteBuffer binaryBuf = ByteBuffer.wrap(binary);
CharBuffer encoded = IndexableBinaryStringTools.encode(binaryBuf);
assertNotNull("encode() returned null", encoded);
ByteBuffer decodedBuf = IndexableBinaryStringTools.decode(encoded);
assertNotNull("decode() returned null", decodedBuf);
assertEquals("Round trip decode/decode returned different results:"
+ System.getProperty("line.separator")
+ " original: " + binaryDumpNIO(binaryBuf)
+ System.getProperty("line.separator")
+ "decodedBuf: " + binaryDumpNIO(decodedBuf),
binaryBuf, decodedBuf);
}
public void testAllNullInput() {
byte[] binary = new byte[] { 0, 0, 0, 0, 0, 0, 0, 0, 0 };
int encodedLen = IndexableBinaryStringTools.getEncodedLength(binary, 0,
binary.length);
char encoded[] = new char[encodedLen];
IndexableBinaryStringTools.encode(binary, 0, binary.length, encoded, 0,
encoded.length);
int decodedLen = IndexableBinaryStringTools.getDecodedLength(encoded, 0,
encoded.length);
byte[] decoded = new byte[decodedLen];
IndexableBinaryStringTools.decode(encoded, 0, encoded.length, decoded, 0,
decoded.length);
assertEquals("Round trip decode/decode returned different results:"
+ System.getProperty("line.separator") + " original: "
+ binaryDump(binary, binary.length)
+ System.getProperty("line.separator") + "decodedBuf: "
+ binaryDump(decoded, decoded.length),
binaryDump(binary, binary.length), binaryDump(decoded, decoded.length));
}
/** @deprecated remove this test for Lucene 4.0 */
@Deprecated
public void testRandomBinaryRoundTripNIO() {
byte[] binary = new byte[MAX_RANDOM_BINARY_LENGTH];
ByteBuffer binaryBuf = ByteBuffer.wrap(binary);
char[] encoded = new char[IndexableBinaryStringTools.getEncodedLength(binaryBuf)];
CharBuffer encodedBuf = CharBuffer.wrap(encoded);
byte[] decoded = new byte[MAX_RANDOM_BINARY_LENGTH];
ByteBuffer decodedBuf = ByteBuffer.wrap(decoded);
for (int testNum = 0 ; testNum < NUM_RANDOM_TESTS ; ++testNum) {
int numBytes = random.nextInt(MAX_RANDOM_BINARY_LENGTH - 1) + 1 ; // Min == 1
binaryBuf.limit(numBytes);
for (int byteNum = 0 ; byteNum < numBytes ; ++byteNum) {
binary[byteNum] = (byte)random.nextInt(0x100);
}
IndexableBinaryStringTools.encode(binaryBuf, encodedBuf);
IndexableBinaryStringTools.decode(encodedBuf, decodedBuf);
assertEquals("Test #" + (testNum + 1)
+ ": Round trip decode/decode returned different results:"
+ System.getProperty("line.separator")
+ " original: " + binaryDumpNIO(binaryBuf)
+ System.getProperty("line.separator")
+ "encodedBuf: " + charArrayDumpNIO(encodedBuf)
+ System.getProperty("line.separator")
+ "decodedBuf: " + binaryDumpNIO(decodedBuf),
binaryBuf, decodedBuf);
}
}
public void testRandomBinaryRoundTrip() {
byte[] binary = new byte[MAX_RANDOM_BINARY_LENGTH];
char[] encoded = new char[MAX_RANDOM_BINARY_LENGTH * 10];
byte[] decoded = new byte[MAX_RANDOM_BINARY_LENGTH];
for (int testNum = 0; testNum < NUM_RANDOM_TESTS; ++testNum) {
int numBytes = random.nextInt(MAX_RANDOM_BINARY_LENGTH - 1) + 1; // Min == 1
for (int byteNum = 0; byteNum < numBytes; ++byteNum) {
binary[byteNum] = (byte) random.nextInt(0x100);
}
int encodedLen = IndexableBinaryStringTools.getEncodedLength(binary, 0,
numBytes);
if (encoded.length < encodedLen)
encoded = new char[ArrayUtil.oversize(encodedLen, RamUsageEstimator.NUM_BYTES_CHAR)];
IndexableBinaryStringTools.encode(binary, 0, numBytes, encoded, 0,
encodedLen);
int decodedLen = IndexableBinaryStringTools.getDecodedLength(encoded, 0,
encodedLen);
IndexableBinaryStringTools.decode(encoded, 0, encodedLen, decoded, 0,
decodedLen);
assertEquals("Test #" + (testNum + 1)
+ ": Round trip decode/decode returned different results:"
+ System.getProperty("line.separator") + " original: "
+ binaryDump(binary, numBytes) + System.getProperty("line.separator")
+ "encodedBuf: " + charArrayDump(encoded, encodedLen)
+ System.getProperty("line.separator") + "decodedBuf: "
+ binaryDump(decoded, decodedLen), binaryDump(binary, numBytes),
binaryDump(decoded, decodedLen));
}
}
/** @deprecated remove this method for Lucene 4.0 */
@Deprecated
public String binaryDumpNIO(ByteBuffer binaryBuf) {
return binaryDump(binaryBuf.array(),
binaryBuf.limit() - binaryBuf.arrayOffset());
}
public String binaryDump(byte[] binary, int numBytes) {
StringBuilder buf = new StringBuilder();
for (int byteNum = 0 ; byteNum < numBytes ; ++byteNum) {
String hex = Integer.toHexString(binary[byteNum] & 0xFF);
if (hex.length() == 1) {
buf.append('0');
}
buf.append(hex.toUpperCase());
if (byteNum < numBytes - 1) {
buf.append(' ');
}
}
return buf.toString();
}
/** @deprecated remove this method for Lucene 4.0 */
@Deprecated
public String charArrayDumpNIO(CharBuffer charBuf) {
return charArrayDump(charBuf.array(),
charBuf.limit() - charBuf.arrayOffset());
}
public String charArrayDump(char[] charArray, int numBytes) {
StringBuilder buf = new StringBuilder();
for (int charNum = 0 ; charNum < numBytes ; ++charNum) {
String hex = Integer.toHexString(charArray[charNum]);
for (int digit = 0 ; digit < 4 - hex.length() ; ++digit) {
buf.append('0');
}
buf.append(hex.toUpperCase());
if (charNum < numBytes - 1) {
buf.append(' ');
}
}
return buf.toString();
}
}