/*
* Copyright (c) 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/**
* @test 8014076 8025067
* @summary unit test for Arrays.ParallelPrefix().
* @author Tristan Yan
* @run testng ParallelPrefix
* @key intermittent
*/
import java.util.Arrays;
import java.util.function.BinaryOperator;
import java.util.function.DoubleBinaryOperator;
import java.util.function.Function;
import java.util.function.IntBinaryOperator;
import java.util.function.LongBinaryOperator;
import java.util.stream.IntStream;
import java.util.stream.LongStream;
import static org.testng.Assert.*;
import org.testng.annotations.DataProvider;
import org.testng.annotations.Test;
public class ParallelPrefix {
//Array size less than MIN_PARTITION
private static final int SMALL_ARRAY_SIZE = 1 << 3;
//Array size equals MIN_PARTITION
private static final int THRESHOLD_ARRAY_SIZE = 1 << 4;
//Array size greater than MIN_PARTITION
private static final int MEDIUM_ARRAY_SIZE = 1 << 8;
//Array size much greater than MIN_PARTITION
private static final int LARGE_ARRAY_SIZE = 1 << 14;
private static final int[] ARRAY_SIZE_COLLECTION = new int[]{
SMALL_ARRAY_SIZE,
THRESHOLD_ARRAY_SIZE,
MEDIUM_ARRAY_SIZE,
LARGE_ARRAY_SIZE
};
@DataProvider(name = "intSet")
public static Object[][] intSet(){
return genericData(size -> IntStream.range(0, size).toArray(),
new IntBinaryOperator[]{
Integer::sum,
Integer::min});
}
@DataProvider(name = "longSet")
public static Object[][] longSet(){
return genericData(size -> LongStream.range(0, size).toArray(),
new LongBinaryOperator[]{
Long::sum,
Long::min});
}
@DataProvider(name = "doubleSet")
public static Object[][] doubleSet(){
return genericData(size -> IntStream.range(0, size).mapToDouble(i -> (double)i).toArray(),
new DoubleBinaryOperator[]{
Double::sum,
Double::min});
}
@DataProvider(name = "stringSet")
public static Object[][] stringSet(){
Function<Integer, String[]> stringsFunc = size ->
IntStream.range(0, size).mapToObj(Integer::toString).toArray(String[]::new);
BinaryOperator<String> concat = String::concat;
return genericData(stringsFunc,
(BinaryOperator<String>[]) new BinaryOperator[]{
concat });
}
private static <T, OPS> Object[][] genericData(Function<Integer, T> generateFunc, OPS[] ops) {
//test arrays which size is equals n-1, n, n+1, test random data
Object[][] data = new Object[ARRAY_SIZE_COLLECTION.length * 3 * ops.length][4];
for(int n = 0; n < ARRAY_SIZE_COLLECTION.length; n++ ) {
for(int testValue = -1 ; testValue <= 1; testValue++) {
int array_size = ARRAY_SIZE_COLLECTION[n] + testValue;
for(int opsN = 0; opsN < ops.length; opsN++) {
int index = n * 3 * ops.length + (testValue + 1) * ops.length + opsN;
data[index][0] = generateFunc.apply(array_size);
data[index][1] = array_size / 3;
data[index][2] = 2 * array_size / 3;
data[index][3] = ops[opsN];
}
}
}
return data;
}
@Test(dataProvider="intSet")
public void testParallelPrefixForInt(int[] data, int fromIndex, int toIndex, IntBinaryOperator op) {
int[] sequentialResult = data.clone();
for (int index = fromIndex + 1; index < toIndex; index++) {
sequentialResult[index ] = op.applyAsInt(sequentialResult[index - 1], sequentialResult[index]);
}
int[] parallelResult = data.clone();
Arrays.parallelPrefix(parallelResult, fromIndex, toIndex, op);
assertArraysEqual(parallelResult, sequentialResult);
int[] parallelRangeResult = Arrays.copyOfRange(data, fromIndex, toIndex);
Arrays.parallelPrefix(parallelRangeResult, op);
assertArraysEqual(parallelRangeResult, Arrays.copyOfRange(sequentialResult, fromIndex, toIndex));
}
@Test(dataProvider="longSet")
public void testParallelPrefixForLong(long[] data, int fromIndex, int toIndex, LongBinaryOperator op) {
long[] sequentialResult = data.clone();
for (int index = fromIndex + 1; index < toIndex; index++) {
sequentialResult[index ] = op.applyAsLong(sequentialResult[index - 1], sequentialResult[index]);
}
long[] parallelResult = data.clone();
Arrays.parallelPrefix(parallelResult, fromIndex, toIndex, op);
assertArraysEqual(parallelResult, sequentialResult);
long[] parallelRangeResult = Arrays.copyOfRange(data, fromIndex, toIndex);
Arrays.parallelPrefix(parallelRangeResult, op);
assertArraysEqual(parallelRangeResult, Arrays.copyOfRange(sequentialResult, fromIndex, toIndex));
}
@Test(dataProvider="doubleSet")
public void testParallelPrefixForDouble(double[] data, int fromIndex, int toIndex, DoubleBinaryOperator op) {
double[] sequentialResult = data.clone();
for (int index = fromIndex + 1; index < toIndex; index++) {
sequentialResult[index ] = op.applyAsDouble(sequentialResult[index - 1], sequentialResult[index]);
}
double[] parallelResult = data.clone();
Arrays.parallelPrefix(parallelResult, fromIndex, toIndex, op);
assertArraysEqual(parallelResult, sequentialResult);
double[] parallelRangeResult = Arrays.copyOfRange(data, fromIndex, toIndex);
Arrays.parallelPrefix(parallelRangeResult, op);
assertArraysEqual(parallelRangeResult, Arrays.copyOfRange(sequentialResult, fromIndex, toIndex));
}
@Test(dataProvider="stringSet")
public void testParallelPrefixForStringr(String[] data , int fromIndex, int toIndex, BinaryOperator<String> op) {
String[] sequentialResult = data.clone();
for (int index = fromIndex + 1; index < toIndex; index++) {
sequentialResult[index ] = op.apply(sequentialResult[index - 1], sequentialResult[index]);
}
String[] parallelResult = data.clone();
Arrays.parallelPrefix(parallelResult, fromIndex, toIndex, op);
assertArraysEqual(parallelResult, sequentialResult);
String[] parallelRangeResult = Arrays.copyOfRange(data, fromIndex, toIndex);
Arrays.parallelPrefix(parallelRangeResult, op);
assertArraysEqual(parallelRangeResult, Arrays.copyOfRange(sequentialResult, fromIndex, toIndex));
}
@Test
public void testNPEs() {
// null array
assertThrows( () -> Arrays.parallelPrefix((int[]) null, Integer::max),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix((long []) null, Long::max),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix((double []) null, Double::max),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix((String []) null, String::concat),
NullPointerException.class, "should throw NPE");
// null array w/ range
assertThrows( () -> Arrays.parallelPrefix((int[]) null, 0, 0, Integer::max),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix((long []) null, 0, 0, Long::max),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix((double []) null, 0, 0, Double::max),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix((String []) null, 0, 0, String::concat),
NullPointerException.class, "should throw NPE");
// null op
assertThrows( () -> Arrays.parallelPrefix(new int[] {}, null),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix(new long[] {}, null),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix(new double[] {}, null),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix(new String[] {}, null),
NullPointerException.class, "should throw NPE");
// null op w/ range
assertThrows( () -> Arrays.parallelPrefix(new int[] {}, 0, 0, null),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix(new long[] {}, 0, 0, null),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix(new double[] {}, 0, 0, null),
NullPointerException.class, "should throw NPE");
assertThrows( () -> Arrays.parallelPrefix(new String[] {}, 0, 0, null),
NullPointerException.class, "should throw NPE");
}
@Test
public void testIAEs() {
assertThrows( () -> Arrays.parallelPrefix(new int[] {}, 1, 0, Integer::max),
IllegalArgumentException.class, "should throw IAE");
assertThrows( () -> Arrays.parallelPrefix(new long[] {}, 1, 0, Long::max),
IllegalArgumentException.class, "should throw IAE");
assertThrows( () -> Arrays.parallelPrefix(new double[] {}, 1, 0, Double::max),
IllegalArgumentException.class, "should throw IAE");
assertThrows( () -> Arrays.parallelPrefix(new String[] {}, 1, 0, String::concat),
IllegalArgumentException.class, "should throw IAE");
}
@Test
public void testAIOBEs() {
// bad "fromIndex"
assertThrows( () -> Arrays.parallelPrefix(new int[] {}, -1, 0, Integer::max),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
assertThrows( () -> Arrays.parallelPrefix(new long[] {}, -1, 0, Long::max),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
assertThrows( () -> Arrays.parallelPrefix(new double[] {}, -1, 0, Double::max),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
assertThrows( () -> Arrays.parallelPrefix(new String[] {}, -1, 0, String::concat),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
// bad "toIndex"
assertThrows( () -> Arrays.parallelPrefix(new int[] {}, 0, 1, Integer::max),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
assertThrows( () -> Arrays.parallelPrefix(new long[] {}, 0, 1, Long::max),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
assertThrows( () -> Arrays.parallelPrefix(new double[] {}, 0, 1, Double::max),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
assertThrows( () -> Arrays.parallelPrefix(new String[] {}, 0, 1, String::concat),
ArrayIndexOutOfBoundsException.class, "should throw AIOBE");
}
// "library" code
public interface Thrower<T extends Throwable> {
public void run() throws T;
}
public static <T extends Throwable> void assertThrows(Thrower<T> thrower, Class<T> throwable) {
assertThrows(thrower, throwable, null);
}
public static <T extends Throwable> void assertThrows(Thrower<T> thrower, Class<T> throwable, String message) {
Throwable thrown;
try {
thrower.run();
thrown = null;
} catch (Throwable caught) {
thrown = caught;
}
assertInstance(thrown, throwable,
((null != message) ? message : "") +
" Failed to throw " + throwable.getCanonicalName());
}
public static <T extends Throwable> void assertThrows(Class<T> throwable, String message, Thrower<T>... throwers) {
for(Thrower<T> thrower : throwers) {
assertThrows(thrower, throwable, message);
}
}
public static void assertInstance(Object actual, Class<?> expected) {
assertInstance(expected.isInstance(actual), null);
}
public static void assertInstance(Object actual, Class<?> expected, String message) {
assertTrue(expected.isInstance(actual), message);
}
static void assertArraysEqual(int[] actual, int[] expected) {
try {
assertEquals(actual, expected, "");
} catch (AssertionError x) {
throw new AssertionError(String.format("Expected:%s, actual:%s",
Arrays.toString(expected), Arrays.toString(actual)), x);
}
}
static void assertArraysEqual(long[] actual, long[] expected) {
try {
assertEquals(actual, expected, "");
} catch (AssertionError x) {
throw new AssertionError(String.format("Expected:%s, actual:%s",
Arrays.toString(expected), Arrays.toString(actual)), x);
}
}
static void assertArraysEqual(double[] actual, double[] expected) {
try {
assertEquals(actual, expected, "");
} catch (AssertionError x) {
throw new AssertionError(String.format("Expected:%s, actual:%s",
Arrays.toString(expected), Arrays.toString(actual)), x);
}
}
static void assertArraysEqual(String[] actual, String[] expected) {
try {
assertEquals(actual, expected, "");
} catch (AssertionError x) {
throw new AssertionError(String.format("Expected:%s, actual:%s",
Arrays.toString(expected), Arrays.toString(actual)), x);
}
}
}