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package com.oracle.truffle.sl.runtime;

import java.util.logging.Level;

import com.oracle.truffle.api.Assumption;
import com.oracle.truffle.api.CallTarget;
import com.oracle.truffle.api.CompilerDirectives.TruffleBoundary;
import com.oracle.truffle.api.RootCallTarget;
import com.oracle.truffle.api.TruffleLanguage;
import com.oracle.truffle.api.TruffleLogger;
import com.oracle.truffle.api.dsl.Cached;
import com.oracle.truffle.api.dsl.Fallback;
import com.oracle.truffle.api.dsl.ReportPolymorphism;
import com.oracle.truffle.api.dsl.Specialization;
import com.oracle.truffle.api.interop.InteropLibrary;
import com.oracle.truffle.api.interop.TruffleObject;
import com.oracle.truffle.api.library.ExportLibrary;
import com.oracle.truffle.api.library.ExportMessage;
import com.oracle.truffle.api.nodes.DirectCallNode;
import com.oracle.truffle.api.nodes.IndirectCallNode;
import com.oracle.truffle.api.source.SourceSection;
import com.oracle.truffle.api.utilities.CyclicAssumption;
import com.oracle.truffle.api.utilities.TriState;
import com.oracle.truffle.sl.SLLanguage;
import com.oracle.truffle.sl.nodes.SLUndefinedFunctionRootNode;

/**
 * Represents a SL function. On the Truffle level, a callable element is represented by a
 * {@link RootCallTarget call target}. This class encapsulates a call target, and adds version
 * support: functions in SL can be redefined, i.e. changed at run time. When a function is
 * redefined, the call target managed by this function object is changed (and {@link #callTarget} is
 * therefore not a final field).
 * 

* Function redefinition is expected to be rare, therefore optimized call nodes want to speculate * that the call target is stable. This is possible with the help of a Truffle {@link Assumption}: a * call node can keep the call target returned by {@link #getCallTarget()} cached until the * assumption returned by {@link #getCallTargetStable()} is valid. *

* The {@link #callTarget} can be {@code null}. To ensure that only one {@link SLFunction} instance * per name exists, the {@link SLFunctionRegistry} creates an instance also when performing name * lookup. A function that has been looked up, i.e., used, but not defined, has a call target that * encapsulates a {@link SLUndefinedFunctionRootNode}. */ @ExportLibrary(InteropLibrary.class) @SuppressWarnings("static-method") public final class SLFunction implements TruffleObject { public static final int INLINE_CACHE_SIZE = 2; private static final TruffleLogger LOG = TruffleLogger.getLogger(SLLanguage.ID, SLFunction.class); /** The name of the function. */ private final String name; /** The current implementation of this function. */ private RootCallTarget callTarget; /** * Manages the assumption that the {@link #callTarget} is stable. We use the utility class * {@link CyclicAssumption}, which automatically creates a new {@link Assumption} when the old * one gets invalidated. */ private final CyclicAssumption callTargetStable; protected SLFunction(SLLanguage language, String name) { this(language.getOrCreateUndefinedFunction(name)); } protected SLFunction(RootCallTarget callTarget) { this.name = callTarget.getRootNode().getName(); this.callTargetStable = new CyclicAssumption(name); setCallTarget(callTarget); } public String getName() { return name; } protected void setCallTarget(RootCallTarget callTarget) { boolean wasNull = this.callTarget == null; this.callTarget = callTarget; /* * We have a new call target. Invalidate all code that speculated that the old call target * was stable. */ LOG.log(Level.FINE, "Installed call target for: {0}", name); if (!wasNull) { callTargetStable.invalidate(); } } public RootCallTarget getCallTarget() { return callTarget; } public Assumption getCallTargetStable() { return callTargetStable.getAssumption(); } /** * This method is, e.g., called when using a function literal in a string concatenation. So * changing it has an effect on SL programs. */ @Override public String toString() { return name; } @ExportMessage boolean hasLanguage() { return true; } @ExportMessage Class> getLanguage() { return SLLanguage.class; } /** * {@link SLFunction} instances are always visible as executable to other languages. */ @SuppressWarnings("static-method") @ExportMessage @TruffleBoundary SourceSection getSourceLocation() { return getCallTarget().getRootNode().getSourceSection(); } @SuppressWarnings("static-method") @ExportMessage boolean hasSourceLocation() { return true; } /** * {@link SLFunction} instances are always visible as executable to other languages. */ @ExportMessage boolean isExecutable() { return true; } @ExportMessage boolean hasMetaObject() { return true; } @ExportMessage Object getMetaObject() { return SLType.FUNCTION; } @ExportMessage @SuppressWarnings("unused") static final class IsIdenticalOrUndefined { @Specialization static TriState doSLFunction(SLFunction receiver, SLFunction other) { /* * SLFunctions are potentially identical to other SLFunctions. */ return receiver == other ? TriState.TRUE : TriState.FALSE; } @Fallback static TriState doOther(SLFunction receiver, Object other) { return TriState.UNDEFINED; } } @ExportMessage @TruffleBoundary static int identityHashCode(SLFunction receiver) { return System.identityHashCode(receiver); } @ExportMessage Object toDisplayString(@SuppressWarnings("unused") boolean allowSideEffects) { return name; } /** * We allow languages to execute this function. We implement the interop execute message that * forwards to a function dispatch. * * Since invocations are potentially expensive (result in an indirect call, which is expensive * by itself but also limits function inlining which can hinder other optimisations) if the node * turns megamorphic (i.e. cache limit is exceeded) we annotate it with {@ReportPolymorphism}. * This ensures that the runtime is notified when this node turns polymorphic. This, in turn, * may, under certain conditions, cause the runtime to attempt to make node monomorphic again by * duplicating the entire AST containing that node and specialising it for a particular call * site. */ @ReportPolymorphism @ExportMessage abstract static class Execute { /** * Inline cached specialization of the dispatch. * *

* Since SL is a quite simple language, the benefit of the inline cache seems small: after * checking that the actual function to be executed is the same as the cachedFuntion, we can * safely execute the cached call target. You can reasonably argue that caching the call * target is overkill, since we could just retrieve it via {@code function.getCallTarget()}. * However, caching the call target and using a {@link DirectCallNode} allows Truffle to * perform method inlining. In addition, in a more complex language the lookup of the call * target is usually much more complicated than in SL. *

* *

* {@code limit = "INLINE_CACHE_SIZE"} Specifies the limit number of inline cache * specialization instantiations. *

*

* {@code guards = "function.getCallTarget() == cachedTarget"} The inline cache check. Note * that cachedTarget is a final field so that the compiler can optimize the check. *

*

* {@code assumptions = "callTargetStable"} Support for function redefinition: When a * function is redefined, the call target maintained by the SLFunction object is changed. To * avoid a check for that, we use an Assumption that is invalidated by the SLFunction when * the change is performed. Since checking an assumption is a no-op in compiled code, the * assumption check performed by the DSL does not add any overhead during optimized * execution. *

* * @see Cached * @see Specialization * * @param function the dynamically provided function * @param arguments the arguments to the function * @param callTargetStable The assumption object assuming the function was not redefined. * @param cachedTarget The call target we aim to invoke * @param callNode the {@link DirectCallNode} specifically created for the * {@link CallTarget} in cachedFunction. */ @Specialization(limit = "INLINE_CACHE_SIZE", // guards = "function.getCallTarget() == cachedTarget", // assumptions = "callTargetStable") @SuppressWarnings("unused") protected static Object doDirect(SLFunction function, Object[] arguments, @Cached("function.getCallTargetStable()") Assumption callTargetStable, @Cached("function.getCallTarget()") RootCallTarget cachedTarget, @Cached("create(cachedTarget)") DirectCallNode callNode) { /* Inline cache hit, we are safe to execute the cached call target. */ Object returnValue = callNode.call(arguments); return returnValue; } /** * Slow-path code for a call, used when the polymorphic inline cache exceeded its maximum * size specified in INLINE_CACHE_SIZE. Such calls are not optimized any * further, e.g., no method inlining is performed. */ @Specialization(replaces = "doDirect") protected static Object doIndirect(SLFunction function, Object[] arguments, @Cached IndirectCallNode callNode) { /* * SL has a quite simple call lookup: just ask the function for the current call target, * and call it. */ return callNode.call(function.getCallTarget(), arguments); } } }




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