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/*
 * Copyright (c) 2012, 2022, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * The Universal Permissive License (UPL), Version 1.0
 *
 * Subject to the condition set forth below, permission is hereby granted to any
 * person obtaining a copy of this software, associated documentation and/or
 * data (collectively the "Software"), free of charge and under any and all
 * copyright rights in the Software, and any and all patent rights owned or
 * freely licensable by each licensor hereunder covering either (i) the
 * unmodified Software as contributed to or provided by such licensor, or (ii)
 * the Larger Works (as defined below), to deal in both
 *
 * (a) the Software, and
 *
 * (b) any piece of software and/or hardware listed in the lrgrwrks.txt file if
 * one is included with the Software each a "Larger Work" to which the Software
 * is contributed by such licensors),
 *
 * without restriction, including without limitation the rights to copy, create
 * derivative works of, display, perform, and distribute the Software and make,
 * use, sell, offer for sale, import, export, have made, and have sold the
 * Software and the Larger Work(s), and to sublicense the foregoing rights on
 * either these or other terms.
 *
 * This license is subject to the following condition:
 *
 * The above copyright notice and either this complete permission notice or at a
 * minimum a reference to the UPL must be included in all copies or substantial
 * portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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 * SOFTWARE.
 */
package org.pkl.thirdparty.truffle.api;

import org.pkl.thirdparty.truffle.api.frame.Frame;
import org.pkl.thirdparty.truffle.api.frame.FrameDescriptor;
import org.pkl.thirdparty.truffle.api.frame.FrameInstance;
import org.pkl.thirdparty.truffle.api.frame.FrameInstance.FrameAccess;
import org.pkl.thirdparty.truffle.api.frame.FrameInstanceVisitor;
import org.pkl.thirdparty.truffle.api.frame.MaterializedFrame;
import org.pkl.thirdparty.truffle.api.frame.VirtualFrame;
import org.pkl.thirdparty.truffle.api.nodes.DirectCallNode;
import org.pkl.thirdparty.truffle.api.nodes.IndirectCallNode;
import org.pkl.thirdparty.truffle.api.nodes.LoopNode;
import org.pkl.thirdparty.truffle.api.nodes.RepeatingNode;

/**
 * Interface representing a Truffle runtime object. The runtime is responsible for creating call
 * targets and performing optimizations for them.
 *
 * @since 0.8 or earlier
 */
public interface TruffleRuntime {

    /**
     * Name describing this runtime implementation for debugging purposes.
     *
     * @return the name as a String
     * @since 0.8 or earlier
     */
    String getName();

    /**
     * Creates a new runtime specific version of {@link DirectCallNode}.
     *
     * @param target the direct {@link CallTarget} to call
     * @return the new call node
     * @since 0.8 or earlier
     */
    DirectCallNode createDirectCallNode(CallTarget target);

    /**
     * Creates a new loop node with an implementation provided by a Truffle runtime implementation.
     * Using Truffle loop nodes allows the runtime to do additional optimizations such as on stack
     * replacement for loops.
     *
     * @see LoopNode usage example
     * @since 0.8 or earlier
     */
    LoopNode createLoopNode(RepeatingNode body);

    /**
     * Creates a new runtime specific version of {@link IndirectCallNode}.
     *
     * @return the new call node
     * @since 0.8 or earlier
     */
    IndirectCallNode createIndirectCallNode();

    /**
     * Creates a new assumption object that can be checked and invalidated.
     *
     * @return the newly created assumption object
     * @since 0.8 or earlier
     */
    Assumption createAssumption();

    /**
     * Creates a new assumption object with a given name that can be checked and invalidated.
     *
     * @param name the name for the new assumption
     * @return the newly created assumption object
     * @since 0.8 or earlier
     */
    Assumption createAssumption(String name);

    /**
     * Creates a new virtual frame object that can be used to store values and is potentially
     * optimizable by the runtime.
     *
     * @return the newly created virtual frame object
     * @since 0.8 or earlier
     */
    VirtualFrame createVirtualFrame(Object[] arguments, FrameDescriptor frameDescriptor);

    /**
     * Creates a new materialized frame object that can be used to store values.
     *
     * @return the newly created materialized frame object
     * @since 0.8 or earlier
     */
    MaterializedFrame createMaterializedFrame(Object[] arguments);

    /**
     * Creates a new materialized frame object with the given frame descriptor that can be used to
     * store values.
     *
     * @param frameDescriptor the frame descriptor describing this frame's values
     * @return the newly created materialized frame object
     * @since 0.8 or earlier
     */
    MaterializedFrame createMaterializedFrame(Object[] arguments, FrameDescriptor frameDescriptor);

    /**
     * Accesses the current stack, i.e., the contents of the {@link Frame}s and the associated
     * {@link CallTarget}s. Iteration starts at the current frame.
     *
     * Iteration continues as long as {@link FrameInstanceVisitor#visitFrame}, which is invoked for
     * every {@link FrameInstance}, returns null. Any non-null result of the visitor indicates that
     * frame iteration should stop.
     * 

* Instances of {@link FrameInstance} must note escape the invocation of * {@link FrameInstanceVisitor#visitFrame(FrameInstance)}. This rule is currently not enforced, * but will be in future versions of Truffle. * *

* Note that this method can cause deoptimization if * {@link FrameInstance#getFrame(FrameInstance.FrameAccess)} is called with * {@link FrameAccess#READ_WRITE} or {@link FrameAccess#MATERIALIZE} on the fast path. * Instructions and flags for debugging such deoptimizations can be found in /truffle/docs/Optimizing.md#debugging-deoptimizations * *

* To get possible asynchronous stack frames, use * {@link TruffleStackTrace#getAsynchronousStackTrace(CallTarget, Frame)} and provide call * target and frame from the last {@link FrameInstance}. * * @param visitor the visitor that is called for every matching frame. * @return the last result returned by the visitor (which is non-null to indicate that iteration * should stop), or null if the whole stack was iterated. * @since 0.8 or earlier */ default T iterateFrames(FrameInstanceVisitor visitor) { return iterateFrames(visitor, 0); } /** * Accesses the current stack, i.e., the contents of the {@link Frame}s and the associated * {@link CallTarget}s. Iteration starts at the current frame and skips a number of frames * provided as argument. * * Iteration continues as long as {@link FrameInstanceVisitor#visitFrame}, which is invoked for * every {@link FrameInstance}, returns null. Any non-null result of the visitor indicates that * frame iteration should stop. *

* Instances of {@link FrameInstance} must note escape the invocation of * {@link FrameInstanceVisitor#visitFrame(FrameInstance)}. This rule is currently not enforced, * but will be in future versions of Truffle. * *

* Note that this method can cause deoptimization if * {@link FrameInstance#getFrame(FrameInstance.FrameAccess)} is called with * {@link FrameAccess#READ_WRITE} or {@link FrameAccess#MATERIALIZE} on the fast path. * Instructions and flags for debugging such deoptimizations can be found in /truffle/docs/Optimizing.md#debugging-deoptimizations * *

* To get possible asynchronous stack frames, use * {@link TruffleStackTrace#getAsynchronousStackTrace(CallTarget, Frame)} and provide call * target and frame from the last {@link FrameInstance}. * * @param visitor the visitor that is called for every matching frame. * @param skipFrames number of frames to skip before invoking the visitor * @return the last result returned by the visitor (which is non-null to indicate that iteration * should stop), or null if the whole stack was iterated. * @since 21.1 */ default T iterateFrames(FrameInstanceVisitor visitor, @SuppressWarnings("unused") int skipFrames) { throw new AbstractMethodError(); } /** * Requests a capability from the runtime. * * @param capability the type of the interface representing the capability * @return an implementation of the capability or {@code null} if the runtime does not offer it * @since 0.8 or earlier */ T getCapability(Class capability); /** * Internal API method. Do not use. * * @since 0.8 or earlier */ void notifyTransferToInterpreter(); /** * Whether or not the {@link TruffleRuntime} implementation can or wants to use gathered * profiling information Truffle compilation. If this method returns false then all * profiles in the {@link org.pkl.thirdparty.truffle.api.utilities} package are returning void * implementations. If it returns true then all implementations gather profilinig * information. * * @since 0.8 or earlier */ boolean isProfilingEnabled(); }





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