8202095: JFR TestBiasedLockRevocationEvents should cope with multiple events during a single safepoint
Reviewed-by: mgronlun, egahlin
/*
* 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
* @bug 6934604
* @summary enable parts of EliminateAutoBox by default
*
* @run main/othervm -Xbatch -XX:+IgnoreUnrecognizedVMOptions -XX:+EliminateAutoBox
* compiler.eliminateAutobox.TestDoubleBoxing
* @run main/othervm -Xbatch -XX:+IgnoreUnrecognizedVMOptions -XX:+EliminateAutoBox
* -XX:CompileCommand=exclude,compiler.eliminateAutobox.TestDoubleBoxing::dummy
* -XX:CompileCommand=exclude,compiler.eliminateAutobox.TestDoubleBoxing::foo
* -XX:CompileCommand=exclude,compiler.eliminateAutobox.TestDoubleBoxing::foob
* compiler.eliminateAutobox.TestDoubleBoxing
* @run main/othervm -Xbatch -XX:+IgnoreUnrecognizedVMOptions -XX:-EliminateAutoBox
* -XX:CompileCommand=exclude,compiler.eliminateAutobox.TestDoubleBoxing::dummy
* -XX:CompileCommand=exclude,compiler.eliminateAutobox.TestDoubleBoxing::foo
* -XX:CompileCommand=exclude,compiler.eliminateAutobox.TestDoubleBoxing::foob
* compiler.eliminateAutobox.TestDoubleBoxing
*/
package compiler.eliminateAutobox;
public class TestDoubleBoxing {
static final Double ibc = new Double(1.);
//===============================================
// Non-inlined methods to test deoptimization info
static void dummy() { }
static double foo(double i) { return i; }
static Double foob(double i) { return Double.valueOf(i); }
static double simple(double i) {
Double ib = new Double(i);
return ib;
}
static double simpleb(double i) {
Double ib = Double.valueOf(i);
return ib;
}
static double simplec() {
Double ib = ibc;
return ib;
}
static double simplef(double i) {
Double ib = foob(i);
return ib;
}
static double simplep(Double ib) {
return ib;
}
static double simple2(double i) {
Double ib1 = new Double(i);
Double ib2 = new Double(i+1.);
return ib1 + ib2;
}
static double simpleb2(double i) {
Double ib1 = Double.valueOf(i);
Double ib2 = Double.valueOf(i+1.);
return ib1 + ib2;
}
static double simplem2(double i) {
Double ib1 = new Double(i);
Double ib2 = Double.valueOf(i+1.);
return ib1 + ib2;
}
static double simplep2(double i, Double ib1) {
Double ib2 = Double.valueOf(i+1.);
return ib1 + ib2;
}
static double simplec2(double i) {
Double ib1 = ibc;
Double ib2 = Double.valueOf(i+1.);
return ib1 + ib2;
}
//===============================================
static double test(double f, int i) {
Double ib = new Double(f);
if ((i&1) == 0)
ib = f+1.;
return ib;
}
static double testb(double f, int i) {
Double ib = f;
if ((i&1) == 0)
ib = (f+1.);
return ib;
}
static double testm(double f, int i) {
Double ib = f;
if ((i&1) == 0)
ib = new Double(f+1.);
return ib;
}
static double testp(double f, int i, Double ib) {
if ((i&1) == 0)
ib = new Double(f+1.);
return ib;
}
static double testc(double f, int i) {
Double ib = ibc;
if ((i&1) == 0)
ib = new Double(f+1.);
return ib;
}
static double test2(double f, int i) {
Double ib1 = new Double(f);
Double ib2 = new Double(f+1.);
if ((i&1) == 0) {
ib1 = new Double(f+1.);
ib2 = new Double(f+2.);
}
return ib1+ib2;
}
static double testb2(double f, int i) {
Double ib1 = f;
Double ib2 = f+1.;
if ((i&1) == 0) {
ib1 = (f+1.);
ib2 = (f+2.);
}
return ib1+ib2;
}
static double testm2(double f, int i) {
Double ib1 = new Double(f);
Double ib2 = f+1.;
if ((i&1) == 0) {
ib1 = new Double(f+1.);
ib2 = (f+2.);
}
return ib1+ib2;
}
static double testp2(double f, int i, Double ib1) {
Double ib2 = f+1.;
if ((i&1) == 0) {
ib1 = new Double(f+1.);
ib2 = (f+2.);
}
return ib1+ib2;
}
static double testc2(double f, int i) {
Double ib1 = ibc;
Double ib2 = f+1.;
if ((i&1) == 0) {
ib1 = (ibc+1.);
ib2 = (f+2.);
}
return ib1+ib2;
}
//===============================================
static double sum(double[] a) {
double result = 1.;
for (Double i : a)
result += i;
return result;
}
static double sumb(double[] a) {
Double result = 1.;
for (Double i : a)
result += i;
return result;
}
static double sumc(double[] a) {
Double result = ibc;
for (Double i : a)
result += i;
return result;
}
static double sumf(double[] a) {
Double result = foob(1.);
for (Double i : a)
result += i;
return result;
}
static double sump(double[] a, Double result) {
for (Double i : a)
result += i;
return result;
}
static double sum2(double[] a) {
double result1 = 1.;
double result2 = 1.;
for (Double i : a) {
result1 += i;
result2 += i + 1.;
}
return result1 + result2;
}
static double sumb2(double[] a) {
Double result1 = 1.;
Double result2 = 1.;
for (Double i : a) {
result1 += i;
result2 += i + 1.;
}
return result1 + result2;
}
static double summ2(double[] a) {
Double result1 = 1.;
Double result2 = new Double(1.);
for (Double i : a) {
result1 += i;
result2 += new Double(i + 1.);
}
return result1 + result2;
}
static double sump2(double[] a, Double result2) {
Double result1 = 1.;
for (Double i : a) {
result1 += i;
result2 += i + 1.;
}
return result1 + result2;
}
static double sumc2(double[] a) {
Double result1 = 1.;
Double result2 = ibc;
for (Double i : a) {
result1 += i;
result2 += i + ibc;
}
return result1 + result2;
}
//===============================================
static double remi_sum() {
Double j = new Double(1.);
for (int i = 0; i< 1000; i++) {
j = new Double(j + 1.);
}
return j;
}
static double remi_sumb() {
Double j = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
j = j + 1.;
}
return j;
}
static double remi_sumf() {
Double j = foob(1.);
for (int i = 0; i< 1000; i++) {
j = j + 1.;
}
return j;
}
static double remi_sump(Double j) {
for (int i = 0; i< 1000; i++) {
j = new Double(j + 1.);
}
return j;
}
static double remi_sumc() {
Double j = ibc;
for (int i = 0; i< 1000; i++) {
j = j + ibc;
}
return j;
}
static double remi_sum2() {
Double j1 = new Double(1.);
Double j2 = new Double(1.);
for (int i = 0; i< 1000; i++) {
j1 = new Double(j1 + 1.);
j2 = new Double(j2 + 2.);
}
return j1 + j2;
}
static double remi_sumb2() {
Double j1 = Double.valueOf(1.);
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
j1 = j1 + 1.;
j2 = j2 + 2.;
}
return j1 + j2;
}
static double remi_summ2() {
Double j1 = new Double(1.);
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
j1 = new Double(j1 + 1.);
j2 = j2 + 2.;
}
return j1 + j2;
}
static double remi_sump2(Double j1) {
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
j1 = new Double(j1 + 1.);
j2 = j2 + 2.;
}
return j1 + j2;
}
static double remi_sumc2() {
Double j1 = ibc;
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
j1 = j1 + ibc;
j2 = j2 + 2.;
}
return j1 + j2;
}
//===============================================
// Safepointa and debug info for deoptimization
static double simple_deop(double i) {
Double ib = new Double(foo(i));
dummy();
return ib;
}
static double simpleb_deop(double i) {
Double ib = Double.valueOf(foo(i));
dummy();
return ib;
}
static double simplef_deop(double i) {
Double ib = foob(i);
dummy();
return ib;
}
static double simplep_deop(Double ib) {
dummy();
return ib;
}
static double simplec_deop(double i) {
Double ib = ibc;
dummy();
return ib;
}
static double test_deop(double f, int i) {
Double ib = new Double(foo(f));
if ((i&1) == 0)
ib = foo(f+1.);
dummy();
return ib;
}
static double testb_deop(double f, int i) {
Double ib = foo(f);
if ((i&1) == 0)
ib = foo(f+1.);
dummy();
return ib;
}
static double testf_deop(double f, int i) {
Double ib = foob(f);
if ((i&1) == 0)
ib = foo(f+1.);
dummy();
return ib;
}
static double testp_deop(double f, int i, Double ib) {
if ((i&1) == 0)
ib = foo(f+1.);
dummy();
return ib;
}
static double testc_deop(double f, int i) {
Double ib = ibc;
if ((i&1) == 0)
ib = foo(f+1.);
dummy();
return ib;
}
static double sum_deop(double[] a) {
double result = 1.;
for (Double i : a)
result += foo(i);
dummy();
return result;
}
static double sumb_deop(double[] a) {
Double result = 1.;
for (Double i : a)
result += foo(i);
dummy();
return result;
}
static double sumf_deop(double[] a) {
Double result = 1.;
for (Double i : a)
result += foob(i);
dummy();
return result;
}
static double sump_deop(double[] a, Double result) {
for (Double i : a)
result += foob(i);
dummy();
return result;
}
static double sumc_deop(double[] a) {
Double result = ibc;
for (Double i : a)
result += foo(i);
dummy();
return result;
}
static double remi_sum_deop() {
Double j = new Double(foo(1.));
for (int i = 0; i< 1000; i++) {
j = new Double(foo(j + 1.));
}
dummy();
return j;
}
static double remi_sumb_deop() {
Double j = Double.valueOf(foo(1.));
for (int i = 0; i< 1000; i++) {
j = foo(j + 1.);
}
dummy();
return j;
}
static double remi_sumf_deop() {
Double j = foob(1.);
for (int i = 0; i< 1000; i++) {
j = foo(j + 1.);
}
dummy();
return j;
}
static double remi_sump_deop(Double j) {
for (int i = 0; i< 1000; i++) {
j = foo(j + 1.);
}
dummy();
return j;
}
static double remi_sumc_deop() {
Double j = ibc;
for (int i = 0; i< 1000; i++) {
j = foo(j + 1.);
}
dummy();
return j;
}
//===============================================
// Conditional increment
static double remi_sum_cond() {
Double j = new Double(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j = new Double(j + 1.);
}
}
return j;
}
static double remi_sumb_cond() {
Double j = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j = j + 1.;
}
}
return j;
}
static double remi_sumf_cond() {
Double j = foob(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j = j + 1.;
}
}
return j;
}
static double remi_sump_cond(Double j) {
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j = j + 1.;
}
}
return j;
}
static double remi_sumc_cond() {
Double j = ibc;
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j = j + ibc;
}
}
return j;
}
static double remi_sum2_cond() {
Double j1 = new Double(1.);
Double j2 = new Double(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j1 = new Double(j1 + 1.);
} else {
j2 = new Double(j2 + 2.);
}
}
return j1 + j2;
}
static double remi_sumb2_cond() {
Double j1 = Double.valueOf(1.);
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j1 = j1 + 1.;
} else {
j2 = j2 + 2.;
}
}
return j1 + j2;
}
static double remi_summ2_cond() {
Double j1 = new Double(1.);
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j1 = new Double(j1 + 1.);
} else {
j2 = j2 + 2.;
}
}
return j1 + j2;
}
static double remi_sump2_cond(Double j1) {
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j1 = new Double(j1 + 1.);
} else {
j2 = j2 + 2.;
}
}
return j1 + j2;
}
static double remi_sumc2_cond() {
Double j1 = ibc;
Double j2 = Double.valueOf(1.);
for (int i = 0; i< 1000; i++) {
if ((i&1) == 0) {
j1 = j1 + ibc;
} else {
j2 = j2 + 2;
}
}
return j1 + j2;
}
public static void main(String[] args) {
final int ntests = 70;
String[] test_name = new String[] {
"simple", "simpleb", "simplec", "simplef", "simplep",
"simple2", "simpleb2", "simplec2", "simplem2", "simplep2",
"simple_deop", "simpleb_deop", "simplec_deop", "simplef_deop", "simplep_deop",
"test", "testb", "testc", "testm", "testp",
"test2", "testb2", "testc2", "testm2", "testp2",
"test_deop", "testb_deop", "testc_deop", "testf_deop", "testp_deop",
"sum", "sumb", "sumc", "sumf", "sump",
"sum2", "sumb2", "sumc2", "summ2", "sump2",
"sum_deop", "sumb_deop", "sumc_deop", "sumf_deop", "sump_deop",
"remi_sum", "remi_sumb", "remi_sumc", "remi_sumf", "remi_sump",
"remi_sum2", "remi_sumb2", "remi_sumc2", "remi_summ2", "remi_sump2",
"remi_sum_deop", "remi_sumb_deop", "remi_sumc_deop", "remi_sumf_deop", "remi_sump_deop",
"remi_sum_cond", "remi_sumb_cond", "remi_sumc_cond", "remi_sumf_cond", "remi_sump_cond",
"remi_sum2_cond", "remi_sumb2_cond", "remi_sumc2_cond", "remi_summ2_cond", "remi_sump2_cond"
};
final double[] val = new double[] {
71994000., 71994000., 12000., 71994000., 71994000.,
144000000., 144000000., 72018000., 144000000., 144000000.,
71994000., 71994000., 12000., 71994000., 71994000.,
72000000., 72000000., 36006000., 72000000., 72000000.,
144012000., 144012000., 72030000., 144012000., 144012000.,
72000000., 72000000., 36006000., 72000000., 72000000.,
499501., 499501., 499501., 499501., 499501.,
1000002., 1000002., 1000002., 1000002., 1000002.,
499501., 499501., 499501., 499501., 499501.,
1001., 1001., 1001., 1001., 1001.,
3002., 3002., 3002., 3002., 3002.,
1001., 1001., 1001., 1001., 1001.,
501., 501., 501., 501., 501.,
1502., 1502., 1502., 1502., 1502.
};
double[] res = new double[ntests];
for (int i = 0; i < ntests; i++) {
res[i] = 0.;
}
for (int i = 0; i < 12000; i++) {
res[0] += simple(i);
res[1] += simpleb(i);
res[2] += simplec();
res[3] += simplef(i);
res[4] += simplep((double)i);
res[5] += simple2((double)i);
res[6] += simpleb2((double)i);
res[7] += simplec2((double)i);
res[8] += simplem2((double)i);
res[9] += simplep2((double)i, (double)i);
res[10] += simple_deop((double)i);
res[11] += simpleb_deop((double)i);
res[12] += simplec_deop((double)i);
res[13] += simplef_deop((double)i);
res[14] += simplep_deop((double)i);
res[15] += test((double)i, i);
res[16] += testb((double)i, i);
res[17] += testc((double)i, i);
res[18] += testm((double)i, i);
res[19] += testp((double)i, i, (double)i);
res[20] += test2((double)i, i);
res[21] += testb2((double)i, i);
res[22] += testc2((double)i, i);
res[23] += testm2((double)i, i);
res[24] += testp2((double)i, i, (double)i);
res[25] += test_deop((double)i, i);
res[26] += testb_deop((double)i, i);
res[27] += testc_deop((double)i, i);
res[28] += testf_deop((double)i, i);
res[29] += testp_deop((double)i, i, (double)i);
}
double[] ia = new double[1000];
for (int i = 0; i < 1000; i++) {
ia[i] = i;
}
for (int i = 0; i < 100; i++) {
res[30] = sum(ia);
res[31] = sumb(ia);
res[32] = sumc(ia);
res[33] = sumf(ia);
res[34] = sump(ia, 1.);
res[35] = sum2(ia);
res[36] = sumb2(ia);
res[37] = sumc2(ia);
res[38] = summ2(ia);
res[39] = sump2(ia, 1.);
res[40] = sum_deop(ia);
res[41] = sumb_deop(ia);
res[42] = sumc_deop(ia);
res[43] = sumf_deop(ia);
res[44] = sump_deop(ia, 1.);
res[45] = remi_sum();
res[46] = remi_sumb();
res[47] = remi_sumc();
res[48] = remi_sumf();
res[49] = remi_sump(1.);
res[50] = remi_sum2();
res[51] = remi_sumb2();
res[52] = remi_sumc2();
res[53] = remi_summ2();
res[54] = remi_sump2(1.);
res[55] = remi_sum_deop();
res[56] = remi_sumb_deop();
res[57] = remi_sumc_deop();
res[58] = remi_sumf_deop();
res[59] = remi_sump_deop(1.);
res[60] = remi_sum_cond();
res[61] = remi_sumb_cond();
res[62] = remi_sumc_cond();
res[63] = remi_sumf_cond();
res[64] = remi_sump_cond(1.);
res[65] = remi_sum2_cond();
res[66] = remi_sumb2_cond();
res[67] = remi_sumc2_cond();
res[68] = remi_summ2_cond();
res[69] = remi_sump2_cond(1.);
}
int failed = 0;
for (int i = 0; i < ntests; i++) {
if (res[i] != val[i]) {
System.err.println(test_name[i] + ": " + res[i] + " != " + val[i]);
failed++;
}
}
if (failed > 0) {
System.err.println("Failed " + failed + " tests.");
throw new InternalError();
} else {
System.out.println("Passed.");
}
}
}