8001105: findVirtual of Object[].clone produces internal error
Summary: Replicate JVM logic for access control that makes Object.clone appear public when applied to an array type.
Reviewed-by: twisti
/*
* Copyright (c) 2011, 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
* @bug 6430675 8010430
* @summary Check for correct implementation of {Math, StrictMath}.round
*/
public class RoundTests {
public static void main(String... args) {
int failures = 0;
failures += testNearFloatHalfCases();
failures += testNearDoubleHalfCases();
failures += testUnityULPCases();
failures += testSpecialCases();
if (failures > 0) {
System.err.println("Testing {Math, StrictMath}.round incurred "
+ failures + " failures.");
throw new RuntimeException();
}
}
private static int testNearDoubleHalfCases() {
int failures = 0;
double [][] testCases = {
{+0x1.fffffffffffffp-2, 0.0},
{+0x1.0p-1, 1.0}, // +0.5
{+0x1.0000000000001p-1, 1.0},
{-0x1.fffffffffffffp-2, 0.0},
{-0x1.0p-1, 0.0}, // -0.5
{-0x1.0000000000001p-1, -1.0},
};
for(double[] testCase : testCases) {
failures += testNearHalfCases(testCase[0], (long)testCase[1]);
}
return failures;
}
private static int testNearHalfCases(double input, double expected) {
int failures = 0;
failures += Tests.test("Math.round", input, Math.round(input), expected);
failures += Tests.test("StrictMath.round", input, StrictMath.round(input), expected);
return failures;
}
private static int testNearFloatHalfCases() {
int failures = 0;
float [][] testCases = {
{+0x1.fffffep-2f, 0.0f},
{+0x1.0p-1f, 1.0f}, // +0.5
{+0x1.000002p-1f, 1.0f},
{-0x1.fffffep-2f, 0.0f},
{-0x1.0p-1f, 0.0f}, // -0.5
{-0x1.000002p-1f, -1.0f},
};
for(float[] testCase : testCases) {
failures += testNearHalfCases(testCase[0], (int)testCase[1]);
}
return failures;
}
private static int testNearHalfCases(float input, float expected) {
int failures = 0;
failures += Tests.test("Math.round", input, Math.round(input), expected);
failures += Tests.test("StrictMath.round", input, StrictMath.round(input), expected);
return failures;
}
private static int testUnityULPCases() {
int failures = 0;
for (float sign : new float[]{-1, 1}) {
for (float v1 : new float[]{1 << 23, 1 << 24}) {
for (int k = -5; k <= 5; k++) {
float value = (v1 + k) * sign;
float actual = Math.round(value);
failures += Tests.test("Math.round", value, actual, value);
}
}
}
if (failures != 0) {
System.out.println();
}
for (double sign : new double[]{-1, 1}) {
for (double v1 : new double[]{1L << 52, 1L << 53}) {
for (int k = -5; k <= 5; k++) {
double value = (v1 + k) * sign;
double actual = Math.round(value);
failures += Tests.test("Math.round", value, actual, value);
}
}
}
return failures;
}
private static int testSpecialCases() {
int failures = 0;
failures += Tests.test("Math.round", Float.NaN, Math.round(Float.NaN), 0.0F);
failures += Tests.test("Math.round", Float.POSITIVE_INFINITY,
Math.round(Float.POSITIVE_INFINITY), Integer.MAX_VALUE);
failures += Tests.test("Math.round", Float.NEGATIVE_INFINITY,
Math.round(Float.NEGATIVE_INFINITY), Integer.MIN_VALUE);
failures += Tests.test("Math.round", -(float)Integer.MIN_VALUE,
Math.round(-(float)Integer.MIN_VALUE), Integer.MAX_VALUE);
failures += Tests.test("Math.round", (float) Integer.MIN_VALUE,
Math.round((float) Integer.MIN_VALUE), Integer.MIN_VALUE);
failures += Tests.test("Math.round", 0F, Math.round(0F), 0.0F);
failures += Tests.test("Math.round", Float.MIN_VALUE,
Math.round(Float.MIN_VALUE), 0.0F);
failures += Tests.test("Math.round", -Float.MIN_VALUE,
Math.round(-Float.MIN_VALUE), 0.0F);
failures += Tests.test("Math.round", Double.NaN, Math.round(Double.NaN), 0.0);
failures += Tests.test("Math.round", Double.POSITIVE_INFINITY,
Math.round(Double.POSITIVE_INFINITY), Long.MAX_VALUE);
failures += Tests.test("Math.round", Double.NEGATIVE_INFINITY,
Math.round(Double.NEGATIVE_INFINITY), Long.MIN_VALUE);
failures += Tests.test("Math.round", -(double)Long.MIN_VALUE,
Math.round(-(double)Long.MIN_VALUE), Long.MAX_VALUE);
failures += Tests.test("Math.round", (double) Long.MIN_VALUE,
Math.round((double) Long.MIN_VALUE), Long.MIN_VALUE);
failures += Tests.test("Math.round", 0, Math.round(0), 0.0);
failures += Tests.test("Math.round", Double.MIN_VALUE,
Math.round(Double.MIN_VALUE), 0.0);
failures += Tests.test("Math.round", -Double.MIN_VALUE,
Math.round(-Double.MIN_VALUE), 0.0);
return failures;
}
}