JDK14/Java14源码在线阅读

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package org.graalvm.compiler.hotspot.test;

import org.graalvm.compiler.core.test.GraalCompilerTest;
import org.graalvm.compiler.graph.Node;
import org.graalvm.compiler.java.BytecodeParserOptions;
import org.graalvm.compiler.nodes.AbstractDeoptimizeNode;
import org.graalvm.compiler.nodes.InvokeNode;
import org.graalvm.compiler.nodes.StructuredGraph;
import org.graalvm.compiler.nodes.java.MethodCallTargetNode;
import org.graalvm.compiler.nodes.java.TypeSwitchNode;
import org.graalvm.compiler.options.OptionValues;
import org.junit.Before;
import org.junit.Test;

import jdk.vm.ci.hotspot.HotSpotResolvedJavaMethod;
import jdk.vm.ci.meta.JavaTypeProfile;
import jdk.vm.ci.meta.JavaTypeProfile.ProfiledType;
import jdk.vm.ci.meta.MetaAccessProvider;
import jdk.vm.ci.meta.ResolvedJavaMethod;
import jdk.vm.ci.meta.TriState;

public class PolymorphicInliningTest extends GraalCompilerTest {

    @Before
    public void initializeNotInlinableMethod() {
        ((HotSpotResolvedJavaMethod) getResolvedJavaMethod(NotInlinableSubClass.class, "foo")).setNotInlinableOrCompilable();
        // Resolve classes
        new A().foo();
        new B().foo();
        new NotInlinableSubClass().foo();
    }

    public int snippet(SuperClass receiver) {
        return receiver.foo();
    }

    @Test
    public void testBimorphicInlined() {
        ResolvedJavaMethod method = getResolvedJavaMethod("snippet");
        StructuredGraph graph = parseForCompile(method, disableInlineDuringParsing());

        MetaAccessProvider metaAccess = getMetaAccess();
        ProfiledType[] injectedProfile = {
                        new ProfiledType(metaAccess.lookupJavaType(A.class), 0.5D),
                        new ProfiledType(metaAccess.lookupJavaType(B.class), 0.5D)};
        injectTypeProfile(graph, "PolymorphicInliningTest$SuperClass.foo", new JavaTypeProfile(TriState.FALSE, 0.0D, injectedProfile));

        createInliningPhase().apply(graph, getDefaultHighTierContext());

        // This callsite should be inlined with a TypeCheckedInliningViolated deoptimization.
        assertTrue(getNodeCount(graph, InvokeNode.class) == 0);
        assertTrue(getNodeCount(graph, TypeSwitchNode.class) == 1);
        assertTrue(getNodeCount(graph, AbstractDeoptimizeNode.class) == 1);
    }

    @Test
    public void testBimorphicNotInlined() {
        ResolvedJavaMethod method = getResolvedJavaMethod("snippet");
        StructuredGraph graph = parseForCompile(method, disableInlineDuringParsing());

        MetaAccessProvider metaAccess = getMetaAccess();
        ProfiledType[] injectedProfile = {
                        new ProfiledType(metaAccess.lookupJavaType(A.class), 0.8D),
                        new ProfiledType(metaAccess.lookupJavaType(NotInlinableSubClass.class), 0.2D)};
        injectTypeProfile(graph, "PolymorphicInliningTest$SuperClass.foo", new JavaTypeProfile(TriState.FALSE, 0.0D, injectedProfile));

        createInliningPhase().apply(graph, getDefaultHighTierContext());

        // This callsite is not inlined due to one of the potential callee method is not inlinable.
        assertTrue(getNodeCount(graph, InvokeNode.class) == 1);
        assertTrue(getNodeCount(graph, TypeSwitchNode.class) == 0);
        assertTrue(getNodeCount(graph, AbstractDeoptimizeNode.class) == 0);
    }

    @Test
    public void testMegamorphicInlined() {
        ResolvedJavaMethod method = getResolvedJavaMethod("snippet");
        StructuredGraph graph = parseForCompile(method, disableInlineDuringParsing());

        MetaAccessProvider metaAccess = getMetaAccess();
        ProfiledType[] injectedProfile = {
                        new ProfiledType(metaAccess.lookupJavaType(A.class), 0.79D),
                        new ProfiledType(metaAccess.lookupJavaType(NotInlinableSubClass.class), 0.2D)};
        injectTypeProfile(graph, "PolymorphicInliningTest$SuperClass.foo", new JavaTypeProfile(TriState.FALSE, 0.01D, injectedProfile));

        createInliningPhase().apply(graph, getDefaultHighTierContext());

        assertTrue(getNodeCount(graph, InvokeNode.class) == 1);
        assertTrue(getNodeCount(graph, TypeSwitchNode.class) == 1);
        assertTrue(getNodeCount(graph, AbstractDeoptimizeNode.class) == 0);
    }

    @Test
    public void testMegamorphicNotInlined() {
        ResolvedJavaMethod method = getResolvedJavaMethod("snippet");
        StructuredGraph graph = parseForCompile(method, disableInlineDuringParsing());

        MetaAccessProvider metaAccess = getMetaAccess();
        ProfiledType[] injectedProfile = {
                        new ProfiledType(metaAccess.lookupJavaType(A.class), 0.3D),
                        new ProfiledType(metaAccess.lookupJavaType(B.class), 0.3D),
                        new ProfiledType(metaAccess.lookupJavaType(NotInlinableSubClass.class), 0.3D)};
        injectTypeProfile(graph, "PolymorphicInliningTest$SuperClass.foo", new JavaTypeProfile(TriState.FALSE, 0.1D, injectedProfile));

        createInliningPhase().apply(graph, getDefaultHighTierContext());

        // This callsite should not be inlined due to non of the potential callee method exceeds the
        // probability specified by GraalOptions.MegamorphicInliningMinMethodProbability.
        assertTrue(getNodeCount(graph, InvokeNode.class) == 1);
        assertTrue(getNodeCount(graph, TypeSwitchNode.class) == 0);
        assertTrue(getNodeCount(graph, AbstractDeoptimizeNode.class) == 0);
    }

    private static OptionValues disableInlineDuringParsing() {
        return new OptionValues(getInitialOptions(), BytecodeParserOptions.InlineDuringParsing, false, BytecodeParserOptions.InlineIntrinsicsDuringParsing, false);
    }

    private static void injectTypeProfile(StructuredGraph graph, String targetMethod, JavaTypeProfile profile) {
        for (MethodCallTargetNode callTargetNode : graph.getNodes(MethodCallTargetNode.TYPE)) {

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