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// CheckStyle: start generated
package com.oracle.truffle.nfi;

import com.oracle.truffle.api.CompilerDirectives;
import com.oracle.truffle.api.TruffleLanguage;
import com.oracle.truffle.api.CompilerDirectives.CompilationFinal;
import com.oracle.truffle.api.CompilerDirectives.TruffleBoundary;
import com.oracle.truffle.api.dsl.DSLSupport;
import com.oracle.truffle.api.dsl.GenerateAOT;
import com.oracle.truffle.api.dsl.GeneratedBy;
import com.oracle.truffle.api.dsl.NeverDefault;
import com.oracle.truffle.api.dsl.UnsupportedSpecializationException;
import com.oracle.truffle.api.dsl.DSLSupport.SpecializationDataNode;
import com.oracle.truffle.api.dsl.InlineSupport.InlineTarget;
import com.oracle.truffle.api.dsl.InlineSupport.ReferenceField;
import com.oracle.truffle.api.dsl.InlineSupport.RequiredField;
import com.oracle.truffle.api.dsl.InlineSupport.StateField;
import com.oracle.truffle.api.dsl.InlineSupport.UnsafeAccessedField;
import com.oracle.truffle.api.interop.ArityException;
import com.oracle.truffle.api.interop.InteropLibrary;
import com.oracle.truffle.api.interop.UnsupportedMessageException;
import com.oracle.truffle.api.interop.UnsupportedTypeException;
import com.oracle.truffle.api.library.LibraryFactory;
import com.oracle.truffle.api.nodes.DenyReplace;
import com.oracle.truffle.api.nodes.EncapsulatingNodeReference;
import com.oracle.truffle.api.nodes.ExplodeLoop;
import com.oracle.truffle.api.nodes.IndirectCallNode;
import com.oracle.truffle.api.nodes.Node;
import com.oracle.truffle.api.nodes.NodeUtil;
import com.oracle.truffle.api.nodes.RootNode;
import com.oracle.truffle.api.nodes.UnadoptableNode;
import com.oracle.truffle.api.profiles.InlinedBranchProfile;
import com.oracle.truffle.nfi.CallSignatureNode.BackendSymbolUnwrapNode;
import com.oracle.truffle.nfi.CallSignatureNode.CachedCallSignatureNode;
import com.oracle.truffle.nfi.CallSignatureNode.OptimizedCallClosureNode;
import com.oracle.truffle.nfi.CallSignatureNode.OptimizedCallSignatureNode;
import com.oracle.truffle.nfi.ConvertTypeNode.ConvertFromNativeNode;
import com.oracle.truffle.nfi.ConvertTypeNode.ConvertToNativeNode;
import com.oracle.truffle.nfi.ConvertTypeNodeFactory.ConvertFromNativeNodeGen;
import com.oracle.truffle.nfi.ConvertTypeNodeFactory.ConvertToNativeNodeGen;
import com.oracle.truffle.nfi.NFISignature.ArgsCachedState;
import com.oracle.truffle.nfi.NFISignature.SignatureCachedState;
import com.oracle.truffle.nfi.NFIType.TypeCachedState;
import com.oracle.truffle.nfi.backend.spi.NFIBackendSignatureLibrary;
import java.lang.invoke.MethodHandles;
import java.lang.invoke.VarHandle;
import java.lang.invoke.MethodHandles.Lookup;
import java.util.Objects;
import java.util.concurrent.locks.ReentrantLock;

@GeneratedBy(CallSignatureNode.class)
@SuppressWarnings({"javadoc", "unused"})
final class CallSignatureNodeFactory {

    private static final LibraryFactory N_F_I_BACKEND_SIGNATURE_LIBRARY_ = LibraryFactory.resolve(NFIBackendSignatureLibrary.class);
    private static final LibraryFactory INTEROP_LIBRARY_ = LibraryFactory.resolve(InteropLibrary.class);

    /**
     * Debug Info: 
     *   Specialization {@link CachedCallSignatureNode#doOptimizedDirect}
     *     Activation probability: 0.48333
     *     With/without class size: 17/8 bytes
     *   Specialization {@link CachedCallSignatureNode#doOptimizedIndirect}
     *     Activation probability: 0.33333
     *     With/without class size: 10/4 bytes
     *   Specialization {@link CachedCallSignatureNode#doSlowPath}
     *     Activation probability: 0.18333
     *     With/without class size: 9/14 bytes
     * 
*/ @GeneratedBy(CachedCallSignatureNode.class) @SuppressWarnings("javadoc") static final class CachedCallSignatureNodeGen extends CachedCallSignatureNode implements GenerateAOT.Provider { private static final StateField SLOW_PATH__CACHED_CALL_SIGNATURE_NODE_SLOW_PATH_STATE_0_UPDATER = StateField.create(SlowPathData.lookup_(), "slowPath_state_0_"); static final ReferenceField OPTIMIZED_DIRECT_CACHE_UPDATER = ReferenceField.create(MethodHandles.lookup(), "optimizedDirect_cache", OptimizedDirectData.class); /** * Source Info:
         *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
         *   Parameter: {@link InlinedBranchProfile} exception
         *   Inline method: {@link InlinedBranchProfile#inline}
*/ private static final InlinedBranchProfile INLINED_SLOW_PATH_EXCEPTION_ = InlinedBranchProfile.inline(InlineTarget.create(InlinedBranchProfile.class, SLOW_PATH__CACHED_CALL_SIGNATURE_NODE_SLOW_PATH_STATE_0_UPDATER.subUpdater(0, 1))); /** * Source Info:
         *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
         *   Parameter: {@link ConvertToNativeNode} convertArg
         *   Inline method: {@link ConvertToNativeNodeGen#inline}
*/ private static final ConvertToNativeNode INLINED_SLOW_PATH_CONVERT_ARG_ = ConvertToNativeNodeGen.inline(InlineTarget.create(ConvertToNativeNode.class, SLOW_PATH__CACHED_CALL_SIGNATURE_NODE_SLOW_PATH_STATE_0_UPDATER.subUpdater(1, 3), ReferenceField.create(SlowPathData.lookup_(), "slowPath_convertArg__field1_", Node.class))); /** * Source Info:
         *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
         *   Parameter: {@link ConvertFromNativeNode} convertRet
         *   Inline method: {@link ConvertFromNativeNodeGen#inline}
*/ private static final ConvertFromNativeNode INLINED_SLOW_PATH_CONVERT_RET_ = ConvertFromNativeNodeGen.inline(InlineTarget.create(ConvertFromNativeNode.class, SLOW_PATH__CACHED_CALL_SIGNATURE_NODE_SLOW_PATH_STATE_0_UPDATER.subUpdater(4, 3), ReferenceField.create(SlowPathData.lookup_(), "slowPath_convertRet__field1_", Node.class))); /** * Source Info:
         *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
         *   Parameter: {@link BackendSymbolUnwrapNode} backendSymbolUnwrapNode
         *   Inline method: {@link BackendSymbolUnwrapNodeGen#inline}
*/ private static final BackendSymbolUnwrapNode INLINED_SLOW_PATH_BACKEND_SYMBOL_UNWRAP_NODE_ = BackendSymbolUnwrapNodeGen.inline(InlineTarget.create(BackendSymbolUnwrapNode.class, SLOW_PATH__CACHED_CALL_SIGNATURE_NODE_SLOW_PATH_STATE_0_UPDATER.subUpdater(7, 3))); private static final Uncached UNCACHED = new Uncached(); /** * State Info:
         *   0: AOTPrepared
         *   1: SpecializationActive {@link CachedCallSignatureNode#doOptimizedDirect}
         *   2: SpecializationActive {@link CachedCallSignatureNode#doOptimizedIndirect}
         *   3: SpecializationActive {@link CachedCallSignatureNode#doSlowPath}
         * 
*/ @CompilationFinal private int state_0_; @UnsafeAccessedField @Child private OptimizedDirectData optimizedDirect_cache; /** * Source Info:
         *   Specialization: {@link CachedCallSignatureNode#doOptimizedIndirect}
         *   Parameter: {@link IndirectCallNode} call
*/ @Child private IndirectCallNode optimizedIndirect_call_; @Child private SlowPathData slowPath_cache; private CachedCallSignatureNodeGen() { } @ExplodeLoop @Override Object execute(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { int state_0 = this.state_0_; if (CompilerDirectives.inInterpreter() && (state_0 & 0b1) != 0 /* is AOTPrepared */) { return executeAndSpecialize(arg0Value, arg1Value, arg2Value); } if ((state_0 & 0b1110) != 0 /* is SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedDirect(NFISignature, Object, Object[], SignatureCachedState, CallSignatureNode)] || SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedIndirect(NFISignature, Object, Object[], IndirectCallNode)] || SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doSlowPath(NFISignature, Object, Object[], Node, InlinedBranchProfile, ConvertToNativeNode, ConvertFromNativeNode, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */) { if ((state_0 & 0b10) != 0 /* is SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedDirect(NFISignature, Object, Object[], SignatureCachedState, CallSignatureNode)] */) { OptimizedDirectData s0_ = this.optimizedDirect_cache; while (s0_ != null) { assert DSLSupport.assertIdempotence((s0_.cachedState_ != null)); if ((arg0Value.cachedState == s0_.cachedState_)) { return doOptimizedDirect(arg0Value, arg1Value, arg2Value, s0_.cachedState_, s0_.call_); } s0_ = s0_.next_; } } if ((state_0 & 0b100) != 0 /* is SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedIndirect(NFISignature, Object, Object[], IndirectCallNode)] */) { { IndirectCallNode call__ = this.optimizedIndirect_call_; if (call__ != null) { if ((arg0Value.cachedState != null)) { return doOptimizedIndirect(arg0Value, arg1Value, arg2Value, call__); } } } } if ((state_0 & 0b1000) != 0 /* is SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doSlowPath(NFISignature, Object, Object[], Node, InlinedBranchProfile, ConvertToNativeNode, ConvertFromNativeNode, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */) { SlowPathData s2_ = this.slowPath_cache; if (s2_ != null) { if ((arg0Value.cachedState == null)) { Node node__ = (s2_); return CachedCallSignatureNode.doSlowPath(arg0Value, arg1Value, arg2Value, node__, INLINED_SLOW_PATH_EXCEPTION_, INLINED_SLOW_PATH_CONVERT_ARG_, INLINED_SLOW_PATH_CONVERT_RET_, s2_.nativeLibrary_, INLINED_SLOW_PATH_BACKEND_SYMBOL_UNWRAP_NODE_); } } } } CompilerDirectives.transferToInterpreterAndInvalidate(); return executeAndSpecialize(arg0Value, arg1Value, arg2Value); } private Object executeAndSpecialize(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { int state_0 = this.state_0_; if ((state_0 & 0b1) != 0 /* is AOTPrepared */) { this.resetAOT_(); state_0 = this.state_0_; } int oldState_0 = (state_0 & 0b1110); try { if (((state_0 & 0b100)) == 0 /* is-not SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedIndirect(NFISignature, Object, Object[], IndirectCallNode)] */) { while (true) { int count0_ = 0; OptimizedDirectData s0_ = OPTIMIZED_DIRECT_CACHE_UPDATER.getVolatile(this); OptimizedDirectData s0_original = s0_; while (s0_ != null) { assert DSLSupport.assertIdempotence((s0_.cachedState_ != null)); if ((arg0Value.cachedState == s0_.cachedState_)) { break; } count0_++; s0_ = s0_.next_; } if (s0_ == null) { { SignatureCachedState cachedState__ = (arg0Value.cachedState); if ((cachedState__ != null)) { // assert (arg0Value.cachedState == cachedState__); if (count0_ < (3)) { s0_ = this.insert(new OptimizedDirectData(s0_original)); s0_.cachedState_ = cachedState__; CallSignatureNode call__1 = s0_.insert((cachedState__.createOptimizedSignatureCall())); Objects.requireNonNull(call__1, "A specialization cache returned a default value. The cache initializer must never return a default value for this cache. Use @Cached(neverDefault=false) to allow default values for this cached value or make sure the cache initializer never returns the default value."); s0_.call_ = call__1; if (!OPTIMIZED_DIRECT_CACHE_UPDATER.compareAndSet(this, s0_original, s0_)) { continue; } state_0 = state_0 | 0b10 /* add SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedDirect(NFISignature, Object, Object[], SignatureCachedState, CallSignatureNode)] */; this.state_0_ = state_0; } } } } if (s0_ != null) { return doOptimizedDirect(arg0Value, arg1Value, arg2Value, s0_.cachedState_, s0_.call_); } break; } } if ((arg0Value.cachedState != null)) { VarHandle.storeStoreFence(); this.optimizedIndirect_call_ = this.insert((IndirectCallNode.create())); this.optimizedDirect_cache = null; state_0 = state_0 & 0xfffffffd /* remove SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedDirect(NFISignature, Object, Object[], SignatureCachedState, CallSignatureNode)] */; state_0 = state_0 | 0b100 /* add SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedIndirect(NFISignature, Object, Object[], IndirectCallNode)] */; this.state_0_ = state_0; return doOptimizedIndirect(arg0Value, arg1Value, arg2Value, this.optimizedIndirect_call_); } { Node node__ = null; if ((arg0Value.cachedState == null)) { SlowPathData s2_ = this.insert(new SlowPathData()); node__ = (s2_); NFIBackendSignatureLibrary nativeLibrary__ = s2_.insert((N_F_I_BACKEND_SIGNATURE_LIBRARY_.createDispatched(3))); Objects.requireNonNull(nativeLibrary__, "A specialization cache returned a default value. The cache initializer must never return a default value for this cache. Use @Cached(neverDefault=false) to allow default values for this cached value or make sure the cache initializer never returns the default value."); s2_.nativeLibrary_ = nativeLibrary__; VarHandle.storeStoreFence(); this.slowPath_cache = s2_; state_0 = state_0 | 0b1000 /* add SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doSlowPath(NFISignature, Object, Object[], Node, InlinedBranchProfile, ConvertToNativeNode, ConvertFromNativeNode, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */; this.state_0_ = state_0; return CachedCallSignatureNode.doSlowPath(arg0Value, arg1Value, arg2Value, node__, INLINED_SLOW_PATH_EXCEPTION_, INLINED_SLOW_PATH_CONVERT_ARG_, INLINED_SLOW_PATH_CONVERT_RET_, nativeLibrary__, INLINED_SLOW_PATH_BACKEND_SYMBOL_UNWRAP_NODE_); } } throw new UnsupportedSpecializationException(this, null, arg0Value, arg1Value, arg2Value); } finally { if (oldState_0 != 0) { checkForPolymorphicSpecialize(oldState_0); } } } private void checkForPolymorphicSpecialize(int oldState_0) { if (((oldState_0 & 0b1100) == 0 && (state_0_ & 0b1100) != 0)) { this.reportPolymorphicSpecialize(); } } @Override public void prepareForAOT(TruffleLanguage language, RootNode root) { assert !isAdoptable() || ((ReentrantLock) getLock()).isHeldByCurrentThread() : "During prepare AST lock must be held."; if ((state_0_ & 0b1) != 0 /* is AOTPrepared */) { return; } { VarHandle.storeStoreFence(); this.optimizedIndirect_call_ = this.insert((IndirectCallNode.create())); this.optimizedDirect_cache = null; this.state_0_ = state_0_ & 0xfffffffd /* remove SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedDirect(NFISignature, Object, Object[], SignatureCachedState, CallSignatureNode)] */; this.state_0_ = state_0_ | 0b100 /* add SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doOptimizedIndirect(NFISignature, Object, Object[], IndirectCallNode)] */; } { SlowPathData s2_ = this.insert(new SlowPathData()); NFIBackendSignatureLibrary nativeLibrary__ = s2_.insert((N_F_I_BACKEND_SIGNATURE_LIBRARY_.createDispatched(3))); Objects.requireNonNull(nativeLibrary__, "A specialization cache returned a default value. The cache initializer must never return a default value for this cache. Use @Cached(neverDefault=false) to allow default values for this cached value or make sure the cache initializer never returns the default value."); s2_.nativeLibrary_ = nativeLibrary__; INLINED_SLOW_PATH_EXCEPTION_.disable(s2_); VarHandle.storeStoreFence(); this.slowPath_cache = s2_; assert NodeUtil.assertRecursion(INLINED_SLOW_PATH_CONVERT_ARG_, 1); ((GenerateAOT.Provider) INLINED_SLOW_PATH_CONVERT_ARG_).prepareForAOT(language, root, this); assert NodeUtil.assertRecursion(INLINED_SLOW_PATH_CONVERT_RET_, 1); ((GenerateAOT.Provider) INLINED_SLOW_PATH_CONVERT_RET_).prepareForAOT(language, root, this); if (s2_.nativeLibrary_ instanceof GenerateAOT.Provider) { assert NodeUtil.assertRecursion(s2_.nativeLibrary_, 1); ((GenerateAOT.Provider) s2_.nativeLibrary_).prepareForAOT(language, root); } assert NodeUtil.assertRecursion(INLINED_SLOW_PATH_BACKEND_SYMBOL_UNWRAP_NODE_, 1); ((GenerateAOT.Provider) INLINED_SLOW_PATH_BACKEND_SYMBOL_UNWRAP_NODE_).prepareForAOT(language, root, this); this.state_0_ = state_0_ | 0b1000 /* add SpecializationActive[CallSignatureNode.CachedCallSignatureNode.doSlowPath(NFISignature, Object, Object[], Node, InlinedBranchProfile, ConvertToNativeNode, ConvertFromNativeNode, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */; } int state_0 = this.state_0_; state_0 = state_0 | 0b1 /* add AOTPrepared */; this.state_0_ = state_0; } private void resetAOT_() { int state_0 = this.state_0_; if (((state_0 & 0b1)) == 0 /* is-not AOTPrepared */) { return; } this.state_0_ = 0; this.optimizedIndirect_call_ = null; this.slowPath_cache = null; } @TruffleBoundary private static UnsupportedSpecializationException newUnsupportedSpecializationException3(Node thisNode_, Object arg0Value, Object arg1Value, Object arg2Value) { return new UnsupportedSpecializationException(thisNode_, null, arg0Value, arg1Value, arg2Value); } @NeverDefault public static CachedCallSignatureNode create() { return new CachedCallSignatureNodeGen(); } @NeverDefault public static CachedCallSignatureNode getUncached() { return CachedCallSignatureNodeGen.UNCACHED; } @GeneratedBy(CachedCallSignatureNode.class) @DenyReplace private static final class OptimizedDirectData extends Node implements SpecializationDataNode { @Child OptimizedDirectData next_; /** * Source Info:
             *   Specialization: {@link CachedCallSignatureNode#doOptimizedDirect}
             *   Parameter: {@link SignatureCachedState} cachedState
*/ @CompilationFinal SignatureCachedState cachedState_; /** * Source Info:
             *   Specialization: {@link CachedCallSignatureNode#doOptimizedDirect}
             *   Parameter: {@link CallSignatureNode} call
*/ @Child CallSignatureNode call_; OptimizedDirectData(OptimizedDirectData next_) { this.next_ = next_; } } @GeneratedBy(CachedCallSignatureNode.class) @DenyReplace private static final class SlowPathData extends Node implements SpecializationDataNode { /** * State Info:
             *   0: InlinedCache
             *        Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *        Parameter: {@link InlinedBranchProfile} exception
             *        Inline method: {@link InlinedBranchProfile#inline}
             *   1-3: InlinedCache
             *        Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *        Parameter: {@link ConvertToNativeNode} convertArg
             *        Inline method: {@link ConvertToNativeNodeGen#inline}
             *   4-6: InlinedCache
             *        Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *        Parameter: {@link ConvertFromNativeNode} convertRet
             *        Inline method: {@link ConvertFromNativeNodeGen#inline}
             *   7-9: InlinedCache
             *        Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *        Parameter: {@link BackendSymbolUnwrapNode} backendSymbolUnwrapNode
             *        Inline method: {@link BackendSymbolUnwrapNodeGen#inline}
             * 
*/ @CompilationFinal @UnsafeAccessedField private int slowPath_state_0_; /** * Source Info:
             *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *   Parameter: {@link ConvertToNativeNode} convertArg
             *   Inline method: {@link ConvertToNativeNodeGen#inline}
             *   Inline field: {@link Node} field1
*/ @Child @UnsafeAccessedField @SuppressWarnings("unused") private Node slowPath_convertArg__field1_; /** * Source Info:
             *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *   Parameter: {@link ConvertFromNativeNode} convertRet
             *   Inline method: {@link ConvertFromNativeNodeGen#inline}
             *   Inline field: {@link Node} field1
*/ @Child @UnsafeAccessedField @SuppressWarnings("unused") private Node slowPath_convertRet__field1_; /** * Source Info:
             *   Specialization: {@link CachedCallSignatureNode#doSlowPath}
             *   Parameter: {@link NFIBackendSignatureLibrary} nativeLibrary
*/ @Child NFIBackendSignatureLibrary nativeLibrary_; SlowPathData() { } private static Lookup lookup_() { return MethodHandles.lookup(); } } @GeneratedBy(CachedCallSignatureNode.class) @DenyReplace private static final class Uncached extends CachedCallSignatureNode implements UnadoptableNode { @TruffleBoundary @Override Object execute(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { if ((arg0Value.cachedState != null)) { return doOptimizedIndirect(arg0Value, arg1Value, arg2Value, (IndirectCallNode.getUncached())); } if ((arg0Value.cachedState == null)) { return CachedCallSignatureNode.doSlowPath(arg0Value, arg1Value, arg2Value, (this), (InlinedBranchProfile.getUncached()), (ConvertToNativeNodeGen.getUncached()), (ConvertFromNativeNodeGen.getUncached()), (N_F_I_BACKEND_SIGNATURE_LIBRARY_.getUncached()), (BackendSymbolUnwrapNodeGen.getUncached())); } throw newUnsupportedSpecializationException3(this, arg0Value, arg1Value, arg2Value); } } } /** * Debug Info:
     *   Specialization {@link OptimizedCallSignatureNode#doCall}
     *     Activation probability: 1.00000
     *     With/without class size: 28/5 bytes
     * 
*/ @GeneratedBy(OptimizedCallSignatureNode.class) @SuppressWarnings("javadoc") static final class OptimizedCallSignatureNodeGen extends OptimizedCallSignatureNode implements GenerateAOT.Provider { private static final StateField STATE_0_OptimizedCallSignatureNode_UPDATER = StateField.create(MethodHandles.lookup(), "state_0_"); /** * Source Info:
         *   Specialization: {@link OptimizedCallSignatureNode#doCall}
         *   Parameter: {@link InlinedBranchProfile} exception
         *   Inline method: {@link InlinedBranchProfile#inline}
*/ private static final InlinedBranchProfile INLINED_EXCEPTION_ = InlinedBranchProfile.inline(InlineTarget.create(InlinedBranchProfile.class, STATE_0_OptimizedCallSignatureNode_UPDATER.subUpdater(2, 1))); /** * Source Info:
         *   Specialization: {@link OptimizedCallSignatureNode#doCall}
         *   Parameter: {@link BackendSymbolUnwrapNode} backendSymbolUnwrapNode
         *   Inline method: {@link BackendSymbolUnwrapNodeGen#inline}
*/ private static final BackendSymbolUnwrapNode INLINED_BACKEND_SYMBOL_UNWRAP_NODE_ = BackendSymbolUnwrapNodeGen.inline(InlineTarget.create(BackendSymbolUnwrapNode.class, STATE_0_OptimizedCallSignatureNode_UPDATER.subUpdater(3, 3))); /** * State Info:
         *   0: AOTPrepared
         *   1: SpecializationActive {@link OptimizedCallSignatureNode#doCall}
         *   2: InlinedCache
         *        Specialization: {@link OptimizedCallSignatureNode#doCall}
         *        Parameter: {@link InlinedBranchProfile} exception
         *        Inline method: {@link InlinedBranchProfile#inline}
         *   3-5: InlinedCache
         *        Specialization: {@link OptimizedCallSignatureNode#doCall}
         *        Parameter: {@link BackendSymbolUnwrapNode} backendSymbolUnwrapNode
         *        Inline method: {@link BackendSymbolUnwrapNodeGen#inline}
         * 
*/ @CompilationFinal @UnsafeAccessedField private int state_0_; /** * Source Info:
         *   Specialization: {@link OptimizedCallSignatureNode#doCall}
         *   Parameter: {@link NFIBackendSignatureLibrary} backendLibrary
*/ @Child private NFIBackendSignatureLibrary backendLibrary_; private OptimizedCallSignatureNodeGen(TypeCachedState retType, ArgsCachedState argsState) { super(retType, argsState); } @Override Object execute(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { int state_0 = this.state_0_; if (CompilerDirectives.inInterpreter() && (state_0 & 0b1) != 0 /* is AOTPrepared */) { return executeAndSpecialize(arg0Value, arg1Value, arg2Value); } if ((state_0 & 0b10) != 0 /* is SpecializationActive[CallSignatureNode.OptimizedCallSignatureNode.doCall(NFISignature, Object, Object[], InlinedBranchProfile, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */) { { NFIBackendSignatureLibrary backendLibrary__ = this.backendLibrary_; if (backendLibrary__ != null) { return doCall(arg0Value, arg1Value, arg2Value, INLINED_EXCEPTION_, backendLibrary__, INLINED_BACKEND_SYMBOL_UNWRAP_NODE_); } } } CompilerDirectives.transferToInterpreterAndInvalidate(); return executeAndSpecialize(arg0Value, arg1Value, arg2Value); } private Object executeAndSpecialize(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { int state_0 = this.state_0_; if ((state_0 & 0b1) != 0 /* is AOTPrepared */) { this.resetAOT_(); state_0 = this.state_0_; } NFIBackendSignatureLibrary backendLibrary__ = this.insert((N_F_I_BACKEND_SIGNATURE_LIBRARY_.createDispatched(1))); Objects.requireNonNull(backendLibrary__, "A specialization cache returned a default value. The cache initializer must never return a default value for this cache. Use @Cached(neverDefault=false) to allow default values for this cached value or make sure the cache initializer never returns the default value."); VarHandle.storeStoreFence(); this.backendLibrary_ = backendLibrary__; state_0 = state_0 | 0b10 /* add SpecializationActive[CallSignatureNode.OptimizedCallSignatureNode.doCall(NFISignature, Object, Object[], InlinedBranchProfile, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */; this.state_0_ = state_0; return doCall(arg0Value, arg1Value, arg2Value, INLINED_EXCEPTION_, backendLibrary__, INLINED_BACKEND_SYMBOL_UNWRAP_NODE_); } @Override public void prepareForAOT(TruffleLanguage language, RootNode root) { assert !isAdoptable() || ((ReentrantLock) getLock()).isHeldByCurrentThread() : "During prepare AST lock must be held."; if ((state_0_ & 0b1) != 0 /* is AOTPrepared */) { return; } { NFIBackendSignatureLibrary backendLibrary__ = this.insert((N_F_I_BACKEND_SIGNATURE_LIBRARY_.createDispatched(1))); Objects.requireNonNull(backendLibrary__, "A specialization cache returned a default value. The cache initializer must never return a default value for this cache. Use @Cached(neverDefault=false) to allow default values for this cached value or make sure the cache initializer never returns the default value."); VarHandle.storeStoreFence(); this.backendLibrary_ = backendLibrary__; INLINED_EXCEPTION_.disable(this); if (this.backendLibrary_ instanceof GenerateAOT.Provider) { assert NodeUtil.assertRecursion(this.backendLibrary_, 1); ((GenerateAOT.Provider) this.backendLibrary_).prepareForAOT(language, root); } assert NodeUtil.assertRecursion(INLINED_BACKEND_SYMBOL_UNWRAP_NODE_, 1); ((GenerateAOT.Provider) INLINED_BACKEND_SYMBOL_UNWRAP_NODE_).prepareForAOT(language, root, this); this.state_0_ = state_0_ | 0b10 /* add SpecializationActive[CallSignatureNode.OptimizedCallSignatureNode.doCall(NFISignature, Object, Object[], InlinedBranchProfile, NFIBackendSignatureLibrary, BackendSymbolUnwrapNode)] */; } int state_0 = this.state_0_; state_0 = state_0 | 0b1 /* add AOTPrepared */; this.state_0_ = state_0; } private void resetAOT_() { int state_0 = this.state_0_; if (((state_0 & 0b1)) == 0 /* is-not AOTPrepared */) { return; } this.state_0_ = 0; INLINED_EXCEPTION_.reset(this); this.backendLibrary_ = null; } @NeverDefault public static OptimizedCallSignatureNode create(TypeCachedState retType, ArgsCachedState argsState) { return new OptimizedCallSignatureNodeGen(retType, argsState); } } /** * Debug Info:
     *   Specialization {@link OptimizedCallClosureNode#doCall}
     *     Activation probability: 0.65000
     *     With/without class size: 19/5 bytes
     *   Specialization {@link OptimizedCallClosureNode#doCall}
     *     Activation probability: 0.35000
     *     With/without class size: 11/1 bytes
     * 
*/ @GeneratedBy(OptimizedCallClosureNode.class) @SuppressWarnings("javadoc") static final class OptimizedCallClosureNodeGen extends OptimizedCallClosureNode implements GenerateAOT.Provider { private static final StateField CALL0__OPTIMIZED_CALL_CLOSURE_NODE_CALL0_STATE_0_UPDATER = StateField.create(Call0Data.lookup_(), "call0_state_0_"); private static final StateField STATE_0_OptimizedCallClosureNode_UPDATER = StateField.create(MethodHandles.lookup(), "state_0_"); static final ReferenceField CALL0_CACHE_UPDATER = ReferenceField.create(MethodHandles.lookup(), "call0_cache", Call0Data.class); /** * Source Info:
         *   Specialization: {@link OptimizedCallClosureNode#doCall}
         *   Parameter: {@link InlinedBranchProfile} exception
         *   Inline method: {@link InlinedBranchProfile#inline}
*/ private static final InlinedBranchProfile INLINED_CALL0_EXCEPTION_ = InlinedBranchProfile.inline(InlineTarget.create(InlinedBranchProfile.class, CALL0__OPTIMIZED_CALL_CLOSURE_NODE_CALL0_STATE_0_UPDATER.subUpdater(0, 1))); /** * Source Info:
         *   Specialization: {@link OptimizedCallClosureNode#doCall}
         *   Parameter: {@link InlinedBranchProfile} exception
         *   Inline method: {@link InlinedBranchProfile#inline}
*/ private static final InlinedBranchProfile INLINED_CALL1_EXCEPTION_ = InlinedBranchProfile.inline(InlineTarget.create(InlinedBranchProfile.class, STATE_0_OptimizedCallClosureNode_UPDATER.subUpdater(3, 1))); /** * State Info:
         *   0: AOTPrepared
         *   1: SpecializationActive {@link OptimizedCallClosureNode#doCall}
         *   2: SpecializationActive {@link OptimizedCallClosureNode#doCall}
         *   3: InlinedCache
         *        Specialization: {@link OptimizedCallClosureNode#doCall}
         *        Parameter: {@link InlinedBranchProfile} exception
         *        Inline method: {@link InlinedBranchProfile#inline}
         * 
*/ @CompilationFinal @UnsafeAccessedField private int state_0_; @UnsafeAccessedField @Child private Call0Data call0_cache; private OptimizedCallClosureNodeGen(TypeCachedState retType, ArgsCachedState argsState) { super(retType, argsState); } @Override Object execute(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { int state_0 = this.state_0_; if (CompilerDirectives.inInterpreter() && (state_0 & 0b1) != 0 /* is AOTPrepared */) { return executeAndSpecialize(arg0Value, arg1Value, arg2Value); } if ((state_0 & 0b110) != 0 /* is SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] || SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */) { if ((state_0 & 0b10) != 0 /* is SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */) { Call0Data s0_ = this.call0_cache; if (s0_ != null) { if ((s0_.interop_.accepts(arg1Value))) { Node node__ = (s0_); return doCall(arg0Value, arg1Value, arg2Value, node__, INLINED_CALL0_EXCEPTION_, s0_.interop_); } } } if ((state_0 & 0b100) != 0 /* is SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */) { return this.call1Boundary(state_0, arg0Value, arg1Value, arg2Value); } } CompilerDirectives.transferToInterpreterAndInvalidate(); return executeAndSpecialize(arg0Value, arg1Value, arg2Value); } @SuppressWarnings("static-method") @TruffleBoundary private Object call1Boundary(int state_0, NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent(); Node prev_ = encapsulating_.set(this); try { { Node node__ = (this); InteropLibrary interop__ = (INTEROP_LIBRARY_.getUncached(arg1Value)); return doCall(arg0Value, arg1Value, arg2Value, node__, INLINED_CALL1_EXCEPTION_, interop__); } } finally { encapsulating_.set(prev_); } } private Object executeAndSpecialize(NFISignature arg0Value, Object arg1Value, Object[] arg2Value) throws ArityException, UnsupportedTypeException, UnsupportedMessageException { int state_0 = this.state_0_; if ((state_0 & 0b1) != 0 /* is AOTPrepared */) { this.resetAOT_(); state_0 = this.state_0_; } { Node node__ = null; if (((state_0 & 0b100)) == 0 /* is-not SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */) { while (true) { int count0_ = 0; Call0Data s0_ = CALL0_CACHE_UPDATER.getVolatile(this); Call0Data s0_original = s0_; while (s0_ != null) { if ((s0_.interop_.accepts(arg1Value))) { node__ = (s0_); break; } count0_++; s0_ = null; break; } if (s0_ == null && count0_ < 1) { // assert (s0_.interop_.accepts(arg1Value)); s0_ = this.insert(new Call0Data()); node__ = (s0_); InteropLibrary interop__ = s0_.insert((INTEROP_LIBRARY_.create(arg1Value))); Objects.requireNonNull(interop__, "A specialization cache returned a default value. The cache initializer must never return a default value for this cache. Use @Cached(neverDefault=false) to allow default values for this cached value or make sure the cache initializer never returns the default value."); s0_.interop_ = interop__; if (!CALL0_CACHE_UPDATER.compareAndSet(this, s0_original, s0_)) { continue; } state_0 = state_0 | 0b10 /* add SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */; this.state_0_ = state_0; } if (s0_ != null) { return doCall(arg0Value, arg1Value, arg2Value, node__, INLINED_CALL0_EXCEPTION_, s0_.interop_); } break; } } } { InteropLibrary interop__ = null; Node node__ = null; { EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent(); Node prev_ = encapsulating_.set(this); try { node__ = (this); interop__ = (INTEROP_LIBRARY_.getUncached(arg1Value)); this.call0_cache = null; state_0 = state_0 & 0xfffffffd /* remove SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */; state_0 = state_0 | 0b100 /* add SpecializationActive[CallSignatureNode.OptimizedCallClosureNode.doCall(NFISignature, Object, Object[], Node, InlinedBranchProfile, InteropLibrary)] */; this.state_0_ = state_0; return doCall(arg0Value, arg1Value, arg2Value, node__, INLINED_CALL1_EXCEPTION_, interop__); } finally { encapsulating_.set(prev_); } } } } @Override public void prepareForAOT(TruffleLanguage language, RootNode root) { assert !isAdoptable() || ((ReentrantLock) getLock()).isHeldByCurrentThread() : "During prepare AST lock must be held."; if ((state_0_ & 0b1) != 0 /* is AOTPrepared */) { return; } int state_0 = this.state_0_; state_0 = state_0 | 0b1 /* add AOTPrepared */; this.state_0_ = state_0; } private void resetAOT_() { int state_0 = this.state_0_; if (((state_0 & 0b1)) == 0 /* is-not AOTPrepared */) { return; } this.state_0_ = 0; } @NeverDefault public static OptimizedCallClosureNode create(TypeCachedState retType, ArgsCachedState argsState) { return new OptimizedCallClosureNodeGen(retType, argsState); } @GeneratedBy(OptimizedCallClosureNode.class) @DenyReplace private static final class Call0Data extends Node implements SpecializationDataNode { /** * State Info:
             *   0: InlinedCache
             *        Specialization: {@link OptimizedCallClosureNode#doCall}
             *        Parameter: {@link InlinedBranchProfile} exception
             *        Inline method: {@link InlinedBranchProfile#inline}
             * 
*/ @CompilationFinal @UnsafeAccessedField private int call0_state_0_; /** * Source Info:
             *   Specialization: {@link OptimizedCallClosureNode#doCall}
             *   Parameter: {@link InteropLibrary} interop
*/ @Child InteropLibrary interop_; Call0Data() { } private static Lookup lookup_() { return MethodHandles.lookup(); } } } /** * Debug Info:
     *   Specialization {@link BackendSymbolUnwrapNode#unwrapNFISymbol}
     *     Activation probability: 0.65000
     *     With/without class size: 11/0 bytes
     *   Specialization {@link BackendSymbolUnwrapNode#noUnwrap}
     *     Activation probability: 0.35000
     *     With/without class size: 8/0 bytes
     * 
*/ @GeneratedBy(BackendSymbolUnwrapNode.class) @SuppressWarnings("javadoc") static final class BackendSymbolUnwrapNodeGen { private static final Uncached UNCACHED = new Uncached(); @NeverDefault public static BackendSymbolUnwrapNode getUncached() { return BackendSymbolUnwrapNodeGen.UNCACHED; } /** * Required Fields:
    *
  • {@link Inlined#state_0_} *
*/ @NeverDefault public static BackendSymbolUnwrapNode inline(@RequiredField(bits = 3, value = StateField.class) InlineTarget target) { return new BackendSymbolUnwrapNodeGen.Inlined(target); } @GeneratedBy(BackendSymbolUnwrapNode.class) @DenyReplace private static final class Inlined extends BackendSymbolUnwrapNode implements UnadoptableNode, GenerateAOT.Provider { /** * State Info:
             *   0: AOTPrepared
             *   1: SpecializationActive {@link BackendSymbolUnwrapNode#unwrapNFISymbol}
             *   2: SpecializationActive {@link BackendSymbolUnwrapNode#noUnwrap}
             * 
*/ private final StateField state_0_; private Inlined(InlineTarget target) { assert target.getTargetClass().isAssignableFrom(BackendSymbolUnwrapNode.class); this.state_0_ = target.getState(0, 3); } @SuppressWarnings("static-method") private boolean fallbackGuard_(int state_0, Node arg0Value, Object arg1Value) { if (!((state_0 & 0b10) != 0 /* is SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.unwrapNFISymbol(NFISymbol)] */) && arg1Value instanceof NFISymbol) { return false; } return true; } @Override Object execute(Node arg0Value, Object arg1Value) { int state_0 = this.state_0_.get(arg0Value); if (CompilerDirectives.inInterpreter() && (state_0 & 0b1) != 0 /* is AOTPrepared */) { return executeAndSpecialize(arg0Value, arg1Value); } if ((state_0 & 0b110) != 0 /* is SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.unwrapNFISymbol(NFISymbol)] || SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.noUnwrap(Object)] */) { if ((state_0 & 0b10) != 0 /* is SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.unwrapNFISymbol(NFISymbol)] */ && arg1Value instanceof NFISymbol) { NFISymbol arg1Value_ = (NFISymbol) arg1Value; return unwrapNFISymbol(arg1Value_); } if ((state_0 & 0b100) != 0 /* is SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.noUnwrap(Object)] */) { if (fallbackGuard_(state_0, arg0Value, arg1Value)) { return noUnwrap(arg1Value); } } } CompilerDirectives.transferToInterpreterAndInvalidate(); return executeAndSpecialize(arg0Value, arg1Value); } private Object executeAndSpecialize(Node arg0Value, Object arg1Value) { int state_0 = this.state_0_.get(arg0Value); if ((state_0 & 0b1) != 0 /* is AOTPrepared */) { this.resetAOT_(arg0Value); state_0 = this.state_0_.get(arg0Value); } if (arg1Value instanceof NFISymbol) { NFISymbol arg1Value_ = (NFISymbol) arg1Value; state_0 = state_0 | 0b10 /* add SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.unwrapNFISymbol(NFISymbol)] */; this.state_0_.set(arg0Value, state_0); return unwrapNFISymbol(arg1Value_); } state_0 = state_0 | 0b100 /* add SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.noUnwrap(Object)] */; this.state_0_.set(arg0Value, state_0); return noUnwrap(arg1Value); } @Override public void prepareForAOT(TruffleLanguage language, RootNode root, Node arg0Value) { assert !isAdoptable() || ((ReentrantLock) getLock()).isHeldByCurrentThread() : "During prepare AST lock must be held."; if ((state_0_.get(arg0Value) & 0b1) != 0 /* is AOTPrepared */) { return; } { this.state_0_.set(arg0Value, state_0_.get(arg0Value) | 0b10 /* add SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.unwrapNFISymbol(NFISymbol)] */); } { this.state_0_.set(arg0Value, state_0_.get(arg0Value) | 0b100 /* add SpecializationActive[CallSignatureNode.BackendSymbolUnwrapNode.noUnwrap(Object)] */); } int state_0 = this.state_0_.get(arg0Value); state_0 = state_0 | 0b1 /* add AOTPrepared */; this.state_0_.set(arg0Value, state_0); } private void resetAOT_(Node arg0Value) { int state_0 = this.state_0_.get(arg0Value); if (((state_0 & 0b1)) == 0 /* is-not AOTPrepared */) { return; } this.state_0_.set(arg0Value, 0); } } @GeneratedBy(BackendSymbolUnwrapNode.class) @DenyReplace private static final class Uncached extends BackendSymbolUnwrapNode implements UnadoptableNode { @TruffleBoundary @Override Object execute(Node arg0Value, Object arg1Value) { if (arg1Value instanceof NFISymbol) { NFISymbol arg1Value_ = (NFISymbol) arg1Value; return unwrapNFISymbol(arg1Value_); } return noUnwrap(arg1Value); } } } }




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