8149040: Cleanup compiler/jsr292/NonInlinedCall tests after JDK-8148994
Reviewed-by: kvn, thartmann
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/*
* @test
* @bug 8072008
* @library /test/lib / ../patches
* @modules java.base/jdk.internal.misc
* java.base/jdk.internal.vm.annotation
*
* @build java.base/java.lang.invoke.MethodHandleHelper
* sun.hotspot.WhiteBox
* @run main/bootclasspath/othervm -XX:+IgnoreUnrecognizedVMOptions
* -XX:+UnlockDiagnosticVMOptions -XX:+WhiteBoxAPI
* -Xbatch -XX:-TieredCompilation -XX:CICompilerCount=1
* compiler.jsr292.NonInlinedCall.InvokeTest
*/
package compiler.jsr292.NonInlinedCall;
import jdk.internal.vm.annotation.DontInline;
import sun.hotspot.WhiteBox;
import java.lang.invoke.MethodHandle;
import java.lang.invoke.MethodHandleHelper;
import java.lang.invoke.MethodHandles;
import java.lang.invoke.MethodType;
import static jdk.test.lib.Asserts.assertEquals;
public class InvokeTest {
static MethodHandles.Lookup LOOKUP = MethodHandleHelper.IMPL_LOOKUP;
static final MethodHandle virtualMH; // invokevirtual T.f1
static final MethodHandle staticMH; // invokestatic T.f2
static final MethodHandle intfMH; // invokeinterface I.f3
static final MethodHandle defaultMH; // invokevirtual T.f3
static final MethodHandle specialMH; // invokespecial T.f4 T
static final MethodHandle privateMH; // invokespecial I.f4 T
static final MethodHandle intrinsicMH; // invokevirtual Object.hashCode
static final WhiteBox WB = WhiteBox.getWhiteBox();
static volatile boolean doDeopt = false;
static {
try {
MethodType mtype = MethodType.methodType(Class.class);
virtualMH = LOOKUP.findVirtual(T.class, "f1", mtype);
staticMH = LOOKUP.findStatic (T.class, "f2", mtype);
intfMH = LOOKUP.findVirtual(I.class, "f3", mtype);
defaultMH = LOOKUP.findVirtual(T.class, "f3", mtype);
specialMH = LOOKUP.findSpecial(T.class, "f4", mtype, T.class);
privateMH = LOOKUP.findSpecial(I.class, "f4", mtype, I.class);
intrinsicMH = LOOKUP.findVirtual(Object.class, "hashCode", MethodType.methodType(int.class));
} catch (Exception e) {
throw new Error(e);
}
}
static class T implements I {
@DontInline public Class<?> f1() { if (doDeopt) WB.deoptimizeAll(); return T.class; }
@DontInline public static Class<?> f2() { if (doDeopt) WB.deoptimizeAll(); return T.class; }
@DontInline private Class<?> f4() { if (doDeopt) WB.deoptimizeAll(); return T.class; }
}
static class P1 extends T {
@DontInline public Class<?> f1() { if (doDeopt) WB.deoptimizeAll(); return P1.class; }
@DontInline public Class<?> f3() { if (doDeopt) WB.deoptimizeAll(); return P1.class; }
}
static class P2 extends T {
@DontInline public Class<?> f1() { if (doDeopt) WB.deoptimizeAll(); return P2.class; }
@DontInline public Class<?> f3() { if (doDeopt) WB.deoptimizeAll(); return P2.class; }
}
interface I {
@DontInline default Class<?> f3() { if (doDeopt) WB.deoptimizeAll(); return I.class; }
@DontInline private Class<?> f4() { if (doDeopt) WB.deoptimizeAll(); return I.class; }
}
interface J1 extends I {
@DontInline default Class<?> f3() { if (doDeopt) WB.deoptimizeAll(); return J1.class; }
}
interface J2 extends I {
@DontInline default Class<?> f3() { if (doDeopt) WB.deoptimizeAll(); return J2.class; }
}
interface J3 extends I {
@DontInline default Class<?> f3() { if (doDeopt) WB.deoptimizeAll(); return J3.class; }
}
static class Q1 extends T implements J1 {}
static class Q2 extends T implements J2 {}
static class Q3 extends T implements J3 {}
static class H {
public int hashCode() { return 0; }
}
@DontInline
static void linkToVirtual(T recv, Class<?> expected) {
try {
Class<?> cls = (Class<?>)virtualMH.invokeExact(recv);
assertEquals(cls, expected);
} catch (Throwable e) {
throw new Error(e);
}
}
@DontInline
static void linkToVirtualDefault(T recv, Class<?> expected) {
try {
Class<?> cls = (Class<?>)defaultMH.invokeExact(recv);
assertEquals(cls, expected);
} catch (Throwable e) {
throw new Error(e);
}
}
@DontInline
static void linkToVirtualIntrinsic(Object recv, int expected) {
try {
int v = (int)intrinsicMH.invokeExact(recv);
assertEquals(v, expected);
} catch (Throwable e) {
throw new Error(e);
}
}
@DontInline
static void linkToInterface(I recv, Class<?> expected) {
try {
Class<?> cls = (Class<?>)intfMH.invokeExact(recv);
assertEquals(cls, expected);
} catch (Throwable e) {
throw new Error(e);
}
}
@DontInline
static void linkToStatic() {
try {
Class<?> cls = (Class<?>)staticMH.invokeExact();
assertEquals(cls, T.class);
} catch (Throwable e) {
throw new Error(e);
}
}
@DontInline
static void linkToSpecial(T recv, Class<?> expected) {
try {
Class<?> cls = (Class<?>)specialMH.invokeExact(recv);
assertEquals(cls, expected);
} catch (Throwable e) {
throw new Error(e);
}
}
@DontInline
static void linkToSpecialIntf(I recv, Class<?> expected) {
try {
Class<?> cls = (Class<?>)privateMH.invokeExact(recv);
assertEquals(cls, expected);
} catch (Throwable e) {
throw new Error(e);
}
}
static void run(Runnable r) {
for (int i = 0; i < 20_000; i++) {
r.run();
}
doDeopt = true;
r.run();
doDeopt = false;
WB.clearInlineCaches();
for (int i = 0; i < 20_000; i++) {
r.run();
}
doDeopt = true;
r.run();
doDeopt = false;
}
static void testVirtual() {
System.out.println("linkToVirtual");
// Monomorphic case (optimized virtual call)
run(() -> linkToVirtual(new T(), T.class));
run(() -> linkToVirtualDefault(new T(), I.class));
run(() -> linkToVirtualIntrinsic(new H(), 0));
// Megamorphic case (optimized virtual call)
run(() -> {
linkToVirtual(new T() {}, T.class);
linkToVirtual(new T() {}, T.class);
linkToVirtual(new T() {}, T.class);
});
run(() -> {
linkToVirtualDefault(new T(){}, I.class);
linkToVirtualDefault(new T(){}, I.class);
linkToVirtualDefault(new T(){}, I.class);
});
// Megamorphic case (virtual call), multiple implementations
run(() -> {
linkToVirtual(new T(), T.class);
linkToVirtual(new P1(), P1.class);
linkToVirtual(new P2(), P2.class);
});
run(() -> {
linkToVirtualDefault(new Q1(), J1.class);
linkToVirtualDefault(new Q2(), J2.class);
linkToVirtualDefault(new Q3(), J3.class);
});
}
static void testInterface() {
System.out.println("linkToInterface");
// Monomorphic case (optimized virtual call), concrete target method
run(() -> linkToInterface(new P1(), P1.class));
// Monomorphic case (optimized virtual call), default target method
run(() -> linkToInterface(new T(), I.class));
// Megamorphic case (virtual call)
run(() -> {
linkToInterface(new T(), I.class);
linkToInterface(new P1(), P1.class);
linkToInterface(new P2(), P2.class);
});
}
static void testSpecial() {
System.out.println("linkToSpecial");
// Monomorphic case (optimized virtual call)
run(() -> linkToSpecial(new T(), T.class));
run(() -> linkToSpecialIntf(new T(), I.class));
}
static void testStatic() {
System.out.println("linkToStatic");
// static call
run(() -> linkToStatic());
}
public static void main(String[] args) {
testVirtual();
testInterface();
testSpecial();
testStatic();
}
}