8032377: test/java/lang/management/ThreadMXBean/ThreadBlockedCount.java still fails intermittently
Reviewed-by: dholmes
/*
* Copyright (c) 2011, 2012, 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
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* questions.
*/
/* @test
* @summary unit tests for recursive method handles
* @run junit/othervm/timeout=3600 -XX:+IgnoreUnrecognizedVMOptions -XX:-VerifyDependencies -DRicochetTest.MAX_ARITY=10 test.java.lang.invoke.RicochetTest
*/
/*
* @ignore The following test creates an unreasonable number of adapters in -Xcomp mode (7049122)
* @run junit/othervm -DRicochetTest.MAX_ARITY=255 test.java.lang.invoke.RicochetTest
*/
package test.java.lang.invoke;
import java.lang.invoke.*;
import java.util.*;
import org.junit.*;
import static java.lang.invoke.MethodType.*;
import static java.lang.invoke.MethodHandles.*;
import static org.junit.Assert.*;
/**
*
* @author jrose
*/
public class RicochetTest {
private static final Class<?> CLASS = RicochetTest.class;
private static final int MAX_ARITY = Integer.getInteger(CLASS.getSimpleName()+".MAX_ARITY", 40);
public static void main(String... av) throws Throwable {
RicochetTest test = new RicochetTest();
if (av.length > 0) test.testOnly = Arrays.asList(av).toString();
if (REPEAT == 1 || test.testOnly != null) {
test.testAll();
if (test.testOnlyTests == null) throw new RuntimeException("no matching test: "+test.testOnly);
} else if (REPEAT == 0) {
org.junit.runner.JUnitCore.runClasses(RicochetTest.class);
} else {
verbose(1, "REPEAT="+REPEAT);
for (int i = 0; i < REPEAT; i++) {
test.testRepetition = (i+1);
verbose(0, "[#"+test.testRepetition+"]");
test.testAll();
}
}
}
int testRepetition;
public void testAll() throws Throwable {
testNull();
testBoxInteger();
testFilterReturnValue();
testFilterObject();
testBoxLong();
testFilterInteger();
testIntSpreads();
testByteSpreads();
testLongSpreads();
testIntCollects();
testReturns();
testRecursion();
}
@Test
public void testNull() throws Throwable {
if (testRepetition > (1+REPEAT/100)) return; // trivial test
if (!startTest("testNull")) return;
assertEquals(opI(37), opI.invokeWithArguments(37));
assertEqualFunction(opI, opI);
}
@Test
public void testBoxInteger() throws Throwable {
if (!startTest("testBoxInteger")) return;
assertEqualFunction(opI, opI.asType(opL_I.type()).asType(opI.type()));
}
@Test
public void testFilterReturnValue() throws Throwable {
if (!startTest("testFilterReturnValue")) return;
int[] ints = { 12, 23, 34, 45, 56, 67, 78, 89 };
Object res = list8ints.invokeExact(ints[0], ints[1], ints[2], ints[3], ints[4], ints[5], ints[6], ints[7]);
assertEquals(Arrays.toString(ints), res.toString());
MethodHandle idreturn = filterReturnValue(list8ints, identity(Object.class));
res = idreturn.invokeExact(ints[0], ints[1], ints[2], ints[3], ints[4], ints[5], ints[6], ints[7]);
assertEquals(Arrays.toString(ints), res.toString());
MethodHandle add0 = addL.bindTo(0);
assertEqualFunction(filterReturnValue(opL2, add0), opL2);
}
@Test
public void testFilterObject() throws Throwable {
if (!startTest("testFilterObject")) return;
MethodHandle add0 = addL.bindTo(0);
assertEqualFunction(sequence(opL2, add0), opL2);
int bump13 = -13; // value near 20 works as long as test values are near [-80..80]
MethodHandle add13 = addL.bindTo(bump13);
MethodHandle add13_0 = addL.bindTo(opI2(bump13, 0));
MethodHandle add13_1 = addL.bindTo(opI2(0, bump13));
assertEqualFunction(sequence(opL2, add13_0),
filterArguments(opL2, 0, add13));
assertEqualFunction(sequence(opL2, add13_1),
filterArguments(opL2, 1, add13));
System.out.println("[testFilterObject done]");
}
@Test
public void testBoxLong() throws Throwable {
if (!startTest("testBoxLong")) return;
assertEqualFunction(opJ, opJ.asType(opL_J.type()).asType(opJ.type()));
}
@Test
public void testFilterInteger() throws Throwable {
if (!startTest("testFilterInteger")) return;
assertEqualFunction(opI, sequence(convI_L, opL_I));
}
@Test
public void testIntSpreads() throws Throwable {
if (!startTest("testIntSpreads")) return;
MethodHandle id = identity(int[].class);
final int MAX = MAX_ARITY-2; // 253+1 would cause parameter overflow with 'this' added
for (int nargs = 0; nargs <= MAX; nargs++) {
if (nargs > 30 && nargs < MAX-20) nargs += 10;
int[] args = new int[nargs];
for (int j = 0; j < args.length; j++) args[j] = j + 11;
//System.out.println("testIntSpreads "+Arrays.toString(args));
int[] args1 = (int[]) id.invokeExact(args);
assertArrayEquals(args, args1);
MethodHandle coll = id.asCollector(int[].class, nargs);
int[] args2 = args;
switch (nargs) {
case 0: args2 = (int[]) coll.invokeExact(); break;
case 1: args2 = (int[]) coll.invokeExact(args[0]); break;
case 2: args2 = (int[]) coll.invokeExact(args[0], args[1]); break;
case 3: args2 = (int[]) coll.invokeExact(args[0], args[1], args[2]); break;
case 4: args2 = (int[]) coll.invokeExact(args[0], args[1], args[2], args[3]); break;
case 5: args2 = (int[]) coll.invokeExact(args[0], args[1], args[2], args[3], args[4]); break;
}
assertArrayEquals(args, args2);
MethodHandle mh = coll.asSpreader(int[].class, nargs);
int[] args3 = (int[]) mh.invokeExact(args);
assertArrayEquals(args, args3);
}
}
@Test
public void testByteSpreads() throws Throwable {
if (!startTest("testByteSpreads")) return;
MethodHandle id = identity(byte[].class);
final int MAX = MAX_ARITY-2; // 253+1 would cause parameter overflow with 'this' added
for (int nargs = 0; nargs <= MAX; nargs++) {
if (nargs > 30 && nargs < MAX-20) nargs += 10;
byte[] args = new byte[nargs];
for (int j = 0; j < args.length; j++) args[j] = (byte)(j + 11);
//System.out.println("testByteSpreads "+Arrays.toString(args));
byte[] args1 = (byte[]) id.invokeExact(args);
assertArrayEquals(args, args1);
MethodHandle coll = id.asCollector(byte[].class, nargs);
byte[] args2 = args;
switch (nargs) {
case 0: args2 = (byte[]) coll.invokeExact(); break;
case 1: args2 = (byte[]) coll.invokeExact(args[0]); break;
case 2: args2 = (byte[]) coll.invokeExact(args[0], args[1]); break;
case 3: args2 = (byte[]) coll.invokeExact(args[0], args[1], args[2]); break;
case 4: args2 = (byte[]) coll.invokeExact(args[0], args[1], args[2], args[3]); break;
case 5: args2 = (byte[]) coll.invokeExact(args[0], args[1], args[2], args[3], args[4]); break;
}
assertArrayEquals(args, args2);
MethodHandle mh = coll.asSpreader(byte[].class, nargs);
byte[] args3 = (byte[]) mh.invokeExact(args);
assertArrayEquals(args, args3);
}
}
@Test
public void testLongSpreads() throws Throwable {
if (!startTest("testLongSpreads")) return;
MethodHandle id = identity(long[].class);
final int MAX = (MAX_ARITY - 2) / 2; // 253/2+1 would cause parameter overflow with 'this' added
for (int nargs = 0; nargs <= MAX; nargs++) {
if (nargs > 30 && nargs < MAX-20) nargs += 10;
long[] args = new long[nargs];
for (int j = 0; j < args.length; j++) args[j] = (long)(j + 11);
//System.out.println("testLongSpreads "+Arrays.toString(args));
long[] args1 = (long[]) id.invokeExact(args);
assertArrayEquals(args, args1);
MethodHandle coll = id.asCollector(long[].class, nargs);
long[] args2 = args;
switch (nargs) {
case 0: args2 = (long[]) coll.invokeExact(); break;
case 1: args2 = (long[]) coll.invokeExact(args[0]); break;
case 2: args2 = (long[]) coll.invokeExact(args[0], args[1]); break;
case 3: args2 = (long[]) coll.invokeExact(args[0], args[1], args[2]); break;
case 4: args2 = (long[]) coll.invokeExact(args[0], args[1], args[2], args[3]); break;
case 5: args2 = (long[]) coll.invokeExact(args[0], args[1], args[2], args[3], args[4]); break;
}
assertArrayEquals(args, args2);
MethodHandle mh = coll.asSpreader(long[].class, nargs);
long[] args3 = (long[]) mh.invokeExact(args);
assertArrayEquals(args, args3);
}
}
@Test
public void testIntCollects() throws Throwable {
if (!startTest("testIntCollects")) return;
for (MethodHandle lister : INT_LISTERS) {
int outputs = lister.type().parameterCount();
for (int collects = 0; collects <= Math.min(outputs, INT_COLLECTORS.length-1); collects++) {
int inputs = outputs - 1 + collects;
if (inputs < 0) continue;
for (int pos = 0; pos + collects <= inputs; pos++) {
MethodHandle collector = INT_COLLECTORS[collects];
int[] args = new int[inputs];
int ap = 0, arg = 31;
for (int i = 0; i < pos; i++)
args[ap++] = arg++ + 0;
for (int i = 0; i < collects; i++)
args[ap++] = arg++ + 10;
while (ap < args.length)
args[ap++] = arg++ + 20;
// calculate piecemeal:
//System.out.println("testIntCollects "+Arrays.asList(lister, pos, collector)+" on "+Arrays.toString(args));
int[] collargs = Arrays.copyOfRange(args, pos, pos+collects);
int coll = (int) collector.asSpreader(int[].class, collargs.length).invokeExact(collargs);
int[] listargs = Arrays.copyOfRange(args, 0, outputs);
System.arraycopy(args, pos+collects, listargs, pos+1, outputs - (pos+1));
listargs[pos] = coll;
//System.out.println(" coll="+coll+" listargs="+Arrays.toString(listargs));
Object expect = lister.asSpreader(int[].class, listargs.length).invokeExact(listargs);
//System.out.println(" expect="+expect);
// now use the combined MH, and test the output:
MethodHandle mh = collectArguments(lister, pos, int[].class, INT_COLLECTORS[collects]);
if (mh == null) continue; // no infix collection, yet
assert(mh.type().parameterCount() == inputs);
Object observe = mh.asSpreader(int[].class, args.length).invokeExact(args);
assertEquals(expect, observe);
}
}
}
}
@Test
public void testByteCollects() throws Throwable {
if (!startTest("testByteCollects")) return;
for (MethodHandle lister : BYTE_LISTERS) {
int outputs = lister.type().parameterCount();
for (int collects = 0; collects <= Math.min(outputs, BYTE_COLLECTORS.length-1); collects++) {
int inputs = outputs - 1 + collects;
if (inputs < 0) continue;
for (int pos = 0; pos + collects <= inputs; pos++) {
MethodHandle collector = BYTE_COLLECTORS[collects];
byte[] args = new byte[inputs];
int ap = 0, arg = 31;
for (int i = 0; i < pos; i++)
args[ap++] = (byte)(arg++ + 0);
for (int i = 0; i < collects; i++)
args[ap++] = (byte)(arg++ + 10);
while (ap < args.length)
args[ap++] = (byte)(arg++ + 20);
// calculate piecemeal:
//System.out.println("testIntCollects "+Arrays.asList(lister, pos, collector)+" on "+Arrays.toString(args));
byte[] collargs = Arrays.copyOfRange(args, pos, pos+collects);
byte coll = (byte) collector.asSpreader(byte[].class, collargs.length).invokeExact(collargs);
byte[] listargs = Arrays.copyOfRange(args, 0, outputs);
System.arraycopy(args, pos+collects, listargs, pos+1, outputs - (pos+1));
listargs[pos] = coll;
//System.out.println(" coll="+coll+" listargs="+Arrays.toString(listargs));
Object expect = lister.asSpreader(byte[].class, listargs.length).invokeExact(listargs);
//System.out.println(" expect="+expect);
// now use the combined MH, and test the output:
MethodHandle mh = collectArguments(lister, pos, byte[].class, BYTE_COLLECTORS[collects]);
if (mh == null) continue; // no infix collection, yet
assert(mh.type().parameterCount() == inputs);
Object observe = mh.asSpreader(byte[].class, args.length).invokeExact(args);
assertEquals(expect, observe);
}
}
}
}
private static MethodHandle collectArguments(MethodHandle lister, int pos, Class<?> array, MethodHandle collector) {
int collects = collector.type().parameterCount();
int outputs = lister.type().parameterCount();
if (pos == outputs - 1)
return MethodHandles.filterArguments(lister, pos,
collector.asSpreader(array, collects))
.asCollector(array, collects);
//return MethodHandles.collectArguments(lister, pos, collector); //no such animal
return null;
}
private static final Class<?>[] RETURN_TYPES = {
Object.class, String.class, Integer.class,
int.class, long.class,
boolean.class, byte.class, char.class, short.class,
float.class, double.class,
void.class,
};
@Test
public void testReturns() throws Throwable {
if (!startTest("testReturns")) return;
// fault injection:
int faultCount = 0; // total of 1296 tests
faultCount = Integer.getInteger("testReturns.faultCount", 0);
for (Class<?> ret : RETURN_TYPES) {
// make a complicated identity function and pass something through it
System.out.println(ret.getSimpleName());
Class<?> vret = (ret == void.class) ? Void.class : ret;
MethodHandle id = // (vret)->ret
identity(vret).asType(methodType(ret, vret));
final int LENGTH = 4;
int[] index = {0};
Object vals = java.lang.reflect.Array.newInstance(vret, LENGTH);
MethodHandle indexGetter = //()->int
insertArguments(arrayElementGetter(index.getClass()), 0, index, 0);
MethodHandle valSelector = // (int)->vret
arrayElementGetter(vals.getClass()).bindTo(vals);
MethodHandle valGetter = // ()->vret
foldArguments(valSelector, indexGetter);
if (ret != void.class) {
for (int i = 0; i < LENGTH; i++) {
Object val = (i + 50);
if (ret == boolean.class) val = (i % 3 == 0);
if (ret == String.class) val = "#"+i;
if (ret == char.class) val = (char)('a'+i);
if (ret == byte.class) val = (byte)~i;
if (ret == short.class) val = (short)(1<<i);
java.lang.reflect.Array.set(vals, i, val);
}
}
for (int i = 0; i < LENGTH; i++) {
Object val = java.lang.reflect.Array.get(vals, i);
System.out.println(i+" => "+val);
index[0] = i;
if (--faultCount == 0) index[0] ^= 1;
Object x = valGetter.invokeWithArguments();
assertEquals(val, x);
// make a return-filter call: x = id(valGetter())
if (--faultCount == 0) index[0] ^= 1;
x = filterReturnValue(valGetter, id).invokeWithArguments();
assertEquals(val, x);
// make a filter call: x = id(*,valGetter(),*)
for (int len = 1; len <= 4; len++) {
for (int pos = 0; pos < len; pos++) {
MethodHandle proj = id; // lambda(..., vret x,...){x}
for (int j = 0; j < len; j++) {
if (j == pos) continue;
proj = dropArguments(proj, j, Object.class);
}
assert(proj.type().parameterCount() == len);
// proj: (Object*, pos: vret, Object*)->ret
assertEquals(vret, proj.type().parameterType(pos));
MethodHandle vgFilter = dropArguments(valGetter, 0, Object.class);
if (--faultCount == 0) index[0] ^= 1;
x = filterArguments(proj, pos, vgFilter).invokeWithArguments(new Object[len]);
assertEquals(val, x);
}
}
// make a fold call:
for (int len = 0; len <= 4; len++) {
for (int fold = 0; fold <= len; fold++) {
MethodHandle proj = id; // lambda(ret x, ...){x}
if (ret == void.class) proj = constant(Object.class, null);
int arg0 = (ret == void.class ? 0 : 1);
for (int j = 0; j < len; j++) {
proj = dropArguments(proj, arg0, Object.class);
}
assert(proj.type().parameterCount() == arg0 + len);
// proj: (Object*, pos: vret, Object*)->ret
if (arg0 != 0) assertEquals(vret, proj.type().parameterType(0));
MethodHandle vgFilter = valGetter.asType(methodType(ret));
for (int j = 0; j < fold; j++) {
vgFilter = dropArguments(vgFilter, j, Object.class);
}
x = foldArguments(proj, vgFilter).invokeWithArguments(new Object[len]);
if (--faultCount == 0) index[0] ^= 1;
assertEquals(val, x);
}
}
}
}
//System.out.println("faultCount="+faultCount);
}
@Test
public void testRecursion() throws Throwable {
if (!startTest("testRecursion")) return;
final int LIMIT = 10;
for (int i = 0; i < LIMIT; i++) {
RFCB rfcb = new RFCB(i);
Object x = "x", y = "y";
Object result = rfcb.recursiveFunction(x, y);
verbose(1, result);
}
}
/** Recursive Function Control Block */
private static class RFCB {
java.util.Random random;
final MethodHandle[] fns;
int depth;
@SuppressWarnings("LeakingThisInConstructor")
RFCB(int seed) throws Throwable {
this.random = new java.util.Random(seed);
this.fns = new MethodHandle[Math.max(29, (1 << MAX_DEPTH-2)/3)];
java.util.Arrays.fill(fns, lookup().bind(this, "recursiveFunction", genericMethodType(2)));
for (int i = 5; i < fns.length; i++) {
switch (i % 4) {
case 0: fns[i] = filterArguments(fns[i - 5], 0, insertArguments(fns[i - 4], 1, ".")); break;
case 1: fns[i] = filterArguments(fns[i - 5], 1, insertArguments(fns[i - 3], 1, ".")); break;
case 2: fns[i] = filterReturnValue(fns[i - 5], insertArguments(fns[i - 2], 1, ".")); break;
}
}
}
Object recursiveFunction(Object x, Object y) throws Throwable {
depth++;
try {
final int ACTION_COUNT = 11;
switch (random.nextInt(ACTION_COUNT)) {
case 1:
Throwable ex = new RuntimeException();
ex.fillInStackTrace();
if (VERBOSITY >= 2) ex.printStackTrace(System.out);
x = "ST; " + x;
break;
case 2:
System.gc();
x = "GC; " + x;
break;
}
boolean isLeaf = (depth >= MAX_DEPTH);
if (isLeaf) {
return Arrays.asList(x, y).toString();
}
return fns[random.nextInt(fns.length)].invokeExact(x, y);
} finally {
depth--;
}
}
}
private static MethodHandle sequence(MethodHandle mh1, MethodHandle... mhs) {
MethodHandle res = mh1;
for (MethodHandle mh2 : mhs)
res = filterReturnValue(res, mh2);
return res;
}
private static void assertEqualFunction(MethodHandle x, MethodHandle y) throws Throwable {
assertEquals(x.type(), y.type()); //??
MethodType t = x.type();
if (t.parameterCount() == 0) {
assertEqualFunctionAt(null, x, y);
return;
}
Class<?> ptype = t.parameterType(0);
if (ptype == long.class || ptype == Long.class) {
for (long i = -10; i <= 10; i++) {
assertEqualFunctionAt(i, x, y);
}
} else {
for (int i = -10; i <= 10; i++) {
assertEqualFunctionAt(i, x, y);
}
}
}
private static void assertEqualFunctionAt(Object v, MethodHandle x, MethodHandle y) throws Throwable {
Object[] args = new Object[x.type().parameterCount()];
Arrays.fill(args, v);
Object xval = invokeWithCatch(x, args);
Object yval = invokeWithCatch(y, args);
String msg = "ok";
if (!Objects.equals(xval, yval)) {
msg = ("applying "+x+" & "+y+" to "+v);
}
assertEquals(msg, xval, yval);
}
private static Object invokeWithCatch(MethodHandle mh, Object... args) throws Throwable {
try {
return mh.invokeWithArguments(args);
} catch (Throwable ex) {
System.out.println("threw: "+mh+Arrays.asList(args));
ex.printStackTrace(System.out);
return ex;
}
}
private static final Lookup LOOKUP = lookup();
private static MethodHandle findStatic(String name,
Class<?> rtype,
Class<?>... ptypes) {
try {
return LOOKUP.findStatic(LOOKUP.lookupClass(), name, methodType(rtype, ptypes));
} catch (ReflectiveOperationException ex) {
throw new RuntimeException(ex);
}
}
private static MethodHandle findStatic(String name,
Class<?> rtype,
List<?> ptypes) {
return findStatic(name, rtype, ptypes.toArray(new Class<?>[ptypes.size()]));
}
static int getProperty(String name, int dflt) {
String qual = LOOKUP.lookupClass().getName();
String prop = System.getProperty(qual+"."+name);
if (prop == null) prop = System.getProperty(name);
if (prop == null) return dflt;
return Integer.parseInt(prop);
}
private static int opI(int... xs) {
stress();
int base = 100;
int z = 0;
for (int x : xs) {
z = (z * base) + (x % base);
}
verbose("opI", xs.length, xs, z);
return z;
}
private static int opI2(int x, int y) { return opI(x, y); } // x*100 + y%100
private static int opI3(int x, int y, int z) { return opI(x, y, z); }
private static int opI4(int w, int x, int y, int z) { return opI(w, x, y, z); }
private static int opI(int x) { return opI2(x, 37); }
private static Object opI_L(int x) { return (Object) opI(x); }
private static long opJ3(long x, long y, long z) { return (long) opI3((int)x, (int)y, (int)z); }
private static long opJ2(long x, long y) { return (long) opI2((int)x, (int)y); }
private static long opJ(long x) { return (long) opI((int)x); }
private static Object opL2(Object x, Object y) { return (Object) opI2((int)x, (int)y); }
private static Object opL(Object x) { return (Object) opI((int)x); }
private static int opL2_I(Object x, Object y) { return opI2((int)x, (int)y); }
private static int opL_I(Object x) { return opI((int)x); }
private static long opL_J(Object x) { return (long) opI((int)x); }
private static final MethodHandle opI, opI2, opI3, opI4, opI_L, opJ, opJ2, opJ3, opL2, opL, opL2_I, opL_I, opL_J;
static {
opI4 = findStatic("opI4", int.class, int.class, int.class, int.class, int.class);
opI3 = findStatic("opI3", int.class, int.class, int.class, int.class);
opI2 = findStatic("opI2", int.class, int.class, int.class);
opI = findStatic("opI", int.class, int.class);
opI_L = findStatic("opI_L", Object.class, int.class);
opJ = findStatic("opJ", long.class, long.class);
opJ2 = findStatic("opJ2", long.class, long.class, long.class);
opJ3 = findStatic("opJ3", long.class, long.class, long.class, long.class);
opL2 = findStatic("opL2", Object.class, Object.class, Object.class);
opL = findStatic("opL", Object.class, Object.class);
opL2_I = findStatic("opL2_I", int.class, Object.class, Object.class);
opL_I = findStatic("opL_I", int.class, Object.class);
opL_J = findStatic("opL_J", long.class, Object.class);
}
private static final MethodHandle[] INT_COLLECTORS = {
constant(int.class, 42), opI, opI2, opI3, opI4
};
private static final MethodHandle[] BYTE_COLLECTORS = {
constant(byte.class, (byte)42), i2b(opI), i2b(opI2), i2b(opI3), i2b(opI4)
};
private static final MethodHandle[] LONG_COLLECTORS = {
constant(long.class, 42), opJ, opJ2, opJ3
};
private static int addI(int x, int y) { stress(); return x+y; }
private static Object addL(Object x, Object y) { return addI((int)x, (int)y); }
private static final MethodHandle addI, addL;
static {
addI = findStatic("addI", int.class, int.class, int.class);
addL = findStatic("addL", Object.class, Object.class, Object.class);
}
private static Object list8ints(int a, int b, int c, int d, int e, int f, int g, int h) {
return Arrays.asList(a, b, c, d, e, f, g, h);
}
private static Object list8longs(long a, long b, long c, long d, long e, long f, long g, long h) {
return Arrays.asList(a, b, c, d, e, f, g, h);
}
private static final MethodHandle list8ints = findStatic("list8ints", Object.class,
Collections.nCopies(8, int.class));
private static final MethodHandle list8longs = findStatic("list8longs", Object.class,
Collections.nCopies(8, long.class));
private static final MethodHandle[] INT_LISTERS, LONG_LISTERS, BYTE_LISTERS;
static {
int listerCount = list8ints.type().parameterCount() + 1;
INT_LISTERS = new MethodHandle[listerCount];
LONG_LISTERS = new MethodHandle[listerCount];
BYTE_LISTERS = new MethodHandle[listerCount];
MethodHandle lister = list8ints;
MethodHandle llister = list8longs;
for (int i = listerCount - 1; ; i--) {
INT_LISTERS[i] = lister;
LONG_LISTERS[i] = llister;
BYTE_LISTERS[i] = i2b(lister);
if (i == 0) break;
lister = insertArguments(lister, i-1, 0);
llister = insertArguments(llister, i-1, 0L);
}
}
private static MethodHandle i2b(MethodHandle mh) {
return MethodHandles.explicitCastArguments(mh, subst(mh.type(), int.class, byte.class));
}
private static MethodType subst(MethodType mt, Class<?> from, Class<?> to) {
for (int i = 0; i < mt.parameterCount(); i++) {
if (mt.parameterType(i) == from)
mt = mt.changeParameterType(i, to);
}
if (mt.returnType() == from)
mt = mt.changeReturnType(to);
return mt;
}
private static Object convI_L(int x) { stress(); return (Object) x; }
private static int convL_I(Object x) { stress(); return (int) x; }
private static Object convJ_L(long x) { stress(); return (Object) x; }
private static long convL_J(Object x) { stress(); return (long) x; }
private static int convJ_I(long x) { stress(); return (int) x; }
private static long convI_J(int x) { stress(); return (long) x; }
private static final MethodHandle convI_L, convL_I, convJ_L, convL_J, convJ_I, convI_J;
static {
convI_L = findStatic("convI_L", Object.class, int.class);
convL_I = findStatic("convL_I", int.class, Object.class);
convJ_L = findStatic("convJ_L", Object.class, long.class);
convL_J = findStatic("convL_J", long.class, Object.class);
convJ_I = findStatic("convJ_I", int.class, long.class);
convI_J = findStatic("convI_J", long.class, int.class);
}
// stress modes:
private static final int MAX_DEPTH = getProperty("MAX_DEPTH", 5);
private static final int REPEAT = getProperty("REPEAT", 0);
private static final int STRESS = getProperty("STRESS", 0);
private static /*v*/ int STRESS_COUNT;
private static final Object[] SINK = new Object[4];
private static void stress() {
if (STRESS <= 0) return;
int count = STRESS + (STRESS_COUNT++ & 0x1); // non-constant value
for (int i = 0; i < count; i++) {
SINK[i % SINK.length] = new Object[STRESS + i % (SINK.length + 1)];
}
}
// verbosity:
private static final int VERBOSITY = getProperty("VERBOSITY", 0) + (REPEAT == 0 ? 0 : -1);
private static void verbose(Object a, Object b, Object c, Object d) {
if (VERBOSITY <= 0) return;
verbose(1, a, b, c, d);
}
private static void verbose(Object a, Object b, Object c) {
if (VERBOSITY <= 0) return;
verbose(1, a, b, c);
}
private static void verbose(int level, Object a, Object... bcd) {
if (level > VERBOSITY) return;
String m = a.toString();
if (bcd != null && bcd.length > 0) {
List<Object> l = new ArrayList<>(bcd.length);
for (Object x : bcd) {
if (x instanceof Object[]) x = Arrays.asList((Object[])x);
if (x instanceof int[]) x = Arrays.toString((int[])x);
if (x instanceof long[]) x = Arrays.toString((long[])x);
l.add(x);
}
m = m+Arrays.asList(bcd);
}
System.out.println(m);
}
String testOnly;
String testOnlyTests;
private boolean startTest(String name) {
if (testOnly != null && !testOnly.contains(name))
return false;
verbose(0, "["+name+"]");
testOnlyTests = (testOnlyTests == null) ? name : testOnlyTests+" "+name;
return true;
}
}