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

import com.oracle.truffle.api.CompilerDirectives;
import com.oracle.truffle.api.CompilerDirectives.CompilationFinal;
import com.oracle.truffle.api.CompilerDirectives.TruffleBoundary;
import com.oracle.truffle.api.dsl.GeneratedBy;
import com.oracle.truffle.api.dsl.UnsupportedSpecializationException;
import com.oracle.truffle.api.dsl.DSLSupport.SpecializationDataNode;
import com.oracle.truffle.api.dsl.InlineSupport.ReferenceField;
import com.oracle.truffle.api.dsl.InlineSupport.UnsafeAccessedField;
import com.oracle.truffle.api.interop.InteropLibrary;
import com.oracle.truffle.api.interop.UnsupportedMessageException;
import com.oracle.truffle.api.library.DynamicDispatchLibrary;
import com.oracle.truffle.api.library.LibraryExport;
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.Node;
import com.oracle.truffle.api.nodes.UnadoptableNode;
import com.oracle.truffle.nfi.LongDoubleUtil.FP80Number;
import com.oracle.truffle.nfi.LongDoubleUtil.FP80Number.Serialize;
import com.oracle.truffle.nfi.api.SerializableLibrary;
import java.lang.invoke.MethodHandles;
import java.util.Objects;

@GeneratedBy(FP80Number.class)
@SuppressWarnings({"javadoc", "unused"})
final class FP80NumberGen {

    private static final LibraryFactory DYNAMIC_DISPATCH_LIBRARY_ = LibraryFactory.resolve(DynamicDispatchLibrary.class);
    private static final LibraryFactory INTEROP_LIBRARY_ = LibraryFactory.resolve(InteropLibrary.class);

    static  {
        LibraryExport.register(FP80Number.class, new SerializableLibraryExports());
    }

    private FP80NumberGen() {
    }

    @GeneratedBy(FP80Number.class)
    private static final class SerializableLibraryExports extends LibraryExport {

        private SerializableLibraryExports() {
            super(SerializableLibrary.class, FP80Number.class, false, false, 0);
        }

        @Override
        protected SerializableLibrary createUncached(Object receiver) {
            assert receiver instanceof FP80Number;
            SerializableLibrary uncached = new Uncached();
            return uncached;
        }

        @Override
        protected SerializableLibrary createCached(Object receiver) {
            assert receiver instanceof FP80Number;
            return new Cached(receiver);
        }

        @GeneratedBy(FP80Number.class)
        private static final class Cached extends SerializableLibrary {

            static final ReferenceField LONG0_CACHE_UPDATER = ReferenceField.create(MethodHandles.lookup(), "long0_cache", Long0Data.class);
            static final ReferenceField DOUBLE0_CACHE_UPDATER = ReferenceField.create(MethodHandles.lookup(), "double0_cache", Double0Data.class);

            @Child private InteropLibrary receiverNumberInteropLibrary_;
            /**
             * State Info: 
             *   0: SpecializationActive {@link Serialize#doLong}
             *   1: SpecializationActive {@link Serialize#doLong}
             *   2: SpecializationActive {@link Serialize#doDouble}
             *   3: SpecializationActive {@link Serialize#doDouble}
             * 
*/ @CompilationFinal private int state_0_; @UnsafeAccessedField @Child private Long0Data long0_cache; @UnsafeAccessedField @Child private Double0Data double0_cache; protected Cached(Object receiver) { FP80Number castReceiver = ((FP80Number) receiver) ; this.receiverNumberInteropLibrary_ = INTEROP_LIBRARY_.create((castReceiver.number)); } @Override public boolean accepts(Object receiver) { assert !(receiver instanceof FP80Number) || DYNAMIC_DISPATCH_LIBRARY_.getUncached().dispatch(receiver) == null : "Invalid library export. Exported receiver with dynamic dispatch found but not expected."; if (!(receiver instanceof FP80Number)) { return false; } else if (!this.receiverNumberInteropLibrary_.accepts((((FP80Number) receiver).number))) { return false; } else { return true; } } /** * Debug Info:
             *   Specialization {@link Serialize#doLong}
             *     Activation probability: 0.38500
             *     With/without class size: 11/4 bytes
             *   Specialization {@link Serialize#doLong}
             *     Activation probability: 0.29500
             *     With/without class size: 7/0 bytes
             *   Specialization {@link Serialize#doDouble}
             *     Activation probability: 0.20500
             *     With/without class size: 8/4 bytes
             *   Specialization {@link Serialize#doDouble}
             *     Activation probability: 0.11500
             *     With/without class size: 5/0 bytes
             * 
*/ @Override public void serialize(Object arg0Value_, Object arg1Value) throws UnsupportedMessageException { assert arg0Value_ instanceof FP80Number : "Invalid library usage. Library does not accept given receiver."; assert assertAdopted(this); FP80Number arg0Value = ((FP80Number) arg0Value_); int state_0 = this.state_0_; if (state_0 != 0 /* is SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] || SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] || SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] || SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { if ((state_0 & 0b1) != 0 /* is SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { Long0Data s0_ = this.long0_cache; if (s0_ != null) { if ((s0_.bufferInterop_.accepts(arg1Value))) { InteropLibrary numberInterop__ = this.receiverNumberInteropLibrary_; if ((numberInterop__.fitsInLong(arg0Value.number))) { Serialize.doLong(arg0Value, arg1Value, numberInterop__, s0_.bufferInterop_); return; } } } } if ((state_0 & 0b10) != 0 /* is SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent(); Node prev_ = encapsulating_.set(this); try { { InteropLibrary numberInterop__ = this.receiverNumberInteropLibrary_; if ((numberInterop__.fitsInLong(arg0Value.number))) { this.serialize_Long1Boundary(state_0, arg0Value, arg1Value); return; } } } finally { encapsulating_.set(prev_); } } if ((state_0 & 0b100) != 0 /* is SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { Double0Data s2_ = this.double0_cache; if (s2_ != null) { if ((s2_.bufferInterop_.accepts(arg1Value))) { InteropLibrary numberInterop__1 = this.receiverNumberInteropLibrary_; if ((numberInterop__1.fitsInDouble(arg0Value.number))) { Serialize.doDouble(arg0Value, arg1Value, numberInterop__1, s2_.bufferInterop_); return; } } } } if ((state_0 & 0b1000) != 0 /* is SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent(); Node prev_ = encapsulating_.set(this); try { { InteropLibrary numberInterop__1 = this.receiverNumberInteropLibrary_; if ((numberInterop__1.fitsInDouble(arg0Value.number))) { this.serialize_Double1Boundary(state_0, arg0Value, arg1Value); return; } } } finally { encapsulating_.set(prev_); } } } CompilerDirectives.transferToInterpreterAndInvalidate(); executeAndSpecialize(arg0Value, arg1Value); return; } @SuppressWarnings("static-method") @TruffleBoundary private void serialize_Long1Boundary(int state_0, FP80Number arg0Value, Object arg1Value) throws UnsupportedMessageException { { InteropLibrary numberInterop__ = this.receiverNumberInteropLibrary_; InteropLibrary bufferInterop__ = (INTEROP_LIBRARY_.getUncached()); Serialize.doLong(arg0Value, arg1Value, numberInterop__, bufferInterop__); return; } } @SuppressWarnings("static-method") @TruffleBoundary private void serialize_Double1Boundary(int state_0, FP80Number arg0Value, Object arg1Value) throws UnsupportedMessageException { { InteropLibrary numberInterop__1 = this.receiverNumberInteropLibrary_; InteropLibrary bufferInterop__1 = (INTEROP_LIBRARY_.getUncached()); Serialize.doDouble(arg0Value, arg1Value, numberInterop__1, bufferInterop__1); return; } } private void executeAndSpecialize(FP80Number arg0Value, Object arg1Value) { int state_0 = this.state_0_; { InteropLibrary numberInterop__ = null; if (((state_0 & 0b10)) == 0 /* is-not SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { while (true) { int count0_ = 0; Long0Data s0_ = LONG0_CACHE_UPDATER.getVolatile(this); Long0Data s0_original = s0_; while (s0_ != null) { if ((s0_.bufferInterop_.accepts(arg1Value))) { numberInterop__ = this.receiverNumberInteropLibrary_; if ((numberInterop__.fitsInLong(arg0Value.number))) { break; } } count0_++; s0_ = null; break; } if (s0_ == null && count0_ < 1) { { numberInterop__ = this.receiverNumberInteropLibrary_; // assert (s0_.bufferInterop_.accepts(arg1Value)); if ((numberInterop__.fitsInLong(arg0Value.number))) { s0_ = this.insert(new Long0Data()); InteropLibrary bufferInterop__ = s0_.insert((INTEROP_LIBRARY_.create(arg1Value))); Objects.requireNonNull(bufferInterop__, "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_.bufferInterop_ = bufferInterop__; if (!LONG0_CACHE_UPDATER.compareAndSet(this, s0_original, s0_)) { continue; } state_0 = state_0 | 0b1 /* add SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] */; this.state_0_ = state_0; } } } if (s0_ != null) { Serialize.doLong(arg0Value, arg1Value, numberInterop__, s0_.bufferInterop_); return; } break; } } } { InteropLibrary bufferInterop__ = null; InteropLibrary numberInterop__ = null; { EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent(); Node prev_ = encapsulating_.set(this); try { { numberInterop__ = this.receiverNumberInteropLibrary_; if ((numberInterop__.fitsInLong(arg0Value.number))) { bufferInterop__ = (INTEROP_LIBRARY_.getUncached()); this.long0_cache = null; state_0 = state_0 & 0xfffffffe /* remove SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] */; state_0 = state_0 | 0b10 /* add SpecializationActive[FP80Number.Serialize.doLong(FP80Number, Object, InteropLibrary, InteropLibrary)] */; this.state_0_ = state_0; Serialize.doLong(arg0Value, arg1Value, numberInterop__, bufferInterop__); return; } } } finally { encapsulating_.set(prev_); } } } { InteropLibrary numberInterop__1 = null; if (((state_0 & 0b1000)) == 0 /* is-not SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */) { while (true) { int count2_ = 0; Double0Data s2_ = DOUBLE0_CACHE_UPDATER.getVolatile(this); Double0Data s2_original = s2_; while (s2_ != null) { if ((s2_.bufferInterop_.accepts(arg1Value))) { numberInterop__1 = this.receiverNumberInteropLibrary_; if ((numberInterop__1.fitsInDouble(arg0Value.number))) { break; } } count2_++; s2_ = null; break; } if (s2_ == null && count2_ < 1) { { numberInterop__1 = this.receiverNumberInteropLibrary_; // assert (s2_.bufferInterop_.accepts(arg1Value)); if ((numberInterop__1.fitsInDouble(arg0Value.number))) { s2_ = this.insert(new Double0Data()); InteropLibrary bufferInterop__1 = s2_.insert((INTEROP_LIBRARY_.create(arg1Value))); Objects.requireNonNull(bufferInterop__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."); s2_.bufferInterop_ = bufferInterop__1; if (!DOUBLE0_CACHE_UPDATER.compareAndSet(this, s2_original, s2_)) { continue; } state_0 = state_0 | 0b100 /* add SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */; this.state_0_ = state_0; } } } if (s2_ != null) { Serialize.doDouble(arg0Value, arg1Value, numberInterop__1, s2_.bufferInterop_); return; } break; } } } { InteropLibrary bufferInterop__1 = null; InteropLibrary numberInterop__1 = null; { EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent(); Node prev_ = encapsulating_.set(this); try { { numberInterop__1 = this.receiverNumberInteropLibrary_; if ((numberInterop__1.fitsInDouble(arg0Value.number))) { bufferInterop__1 = (INTEROP_LIBRARY_.getUncached()); this.double0_cache = null; state_0 = state_0 & 0xfffffffb /* remove SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */; state_0 = state_0 | 0b1000 /* add SpecializationActive[FP80Number.Serialize.doDouble(FP80Number, Object, InteropLibrary, InteropLibrary)] */; this.state_0_ = state_0; Serialize.doDouble(arg0Value, arg1Value, numberInterop__1, bufferInterop__1); return; } } } finally { encapsulating_.set(prev_); } } } throw new UnsupportedSpecializationException(this, null, arg0Value, arg1Value); } @Override public boolean isSerializable(Object receiver) { assert receiver instanceof FP80Number : "Invalid library usage. Library does not accept given receiver."; assert assertAdopted(this); return (((FP80Number) receiver)).isSerializable(); } @GeneratedBy(FP80Number.class) @DenyReplace private static final class Long0Data extends Node implements SpecializationDataNode { /** * Source Info:
                 *   Specialization: {@link Serialize#doLong}
                 *   Parameter: {@link InteropLibrary} bufferInterop
*/ @Child InteropLibrary bufferInterop_; Long0Data() { } } @GeneratedBy(FP80Number.class) @DenyReplace private static final class Double0Data extends Node implements SpecializationDataNode { /** * Source Info:
                 *   Specialization: {@link Serialize#doDouble}
                 *   Parameter: {@link InteropLibrary} bufferInterop
*/ @Child InteropLibrary bufferInterop_; Double0Data() { } } } @GeneratedBy(FP80Number.class) @DenyReplace private static final class Uncached extends SerializableLibrary implements UnadoptableNode { protected Uncached() { } @Override @TruffleBoundary public boolean accepts(Object receiver) { assert !(receiver instanceof FP80Number) || DYNAMIC_DISPATCH_LIBRARY_.getUncached().dispatch(receiver) == null : "Invalid library export. Exported receiver with dynamic dispatch found but not expected."; return receiver instanceof FP80Number; } @TruffleBoundary @Override public void serialize(Object arg0Value_, Object arg1Value) { // declared: true assert this.accepts(arg0Value_) : "Invalid library usage. Library does not accept given receiver."; FP80Number arg0Value = ((FP80Number) arg0Value_); if ((INTEROP_LIBRARY_.getUncached((arg0Value.number)).fitsInLong(arg0Value.number))) { Serialize.doLong(arg0Value, arg1Value, INTEROP_LIBRARY_.getUncached((arg0Value.number)), (INTEROP_LIBRARY_.getUncached(arg1Value))); return; } if ((INTEROP_LIBRARY_.getUncached((arg0Value.number)).fitsInDouble(arg0Value.number))) { Serialize.doDouble(arg0Value, arg1Value, INTEROP_LIBRARY_.getUncached((arg0Value.number)), (INTEROP_LIBRARY_.getUncached(arg1Value))); return; } throw newUnsupportedSpecializationException2(this, arg0Value, arg1Value); } @TruffleBoundary @Override public boolean isSerializable(Object receiver) { // declared: true assert this.accepts(receiver) : "Invalid library usage. Library does not accept given receiver."; return ((FP80Number) receiver) .isSerializable(); } @TruffleBoundary private static UnsupportedSpecializationException newUnsupportedSpecializationException2(Node thisNode_, Object arg0Value, Object arg1Value) { return new UnsupportedSpecializationException(thisNode_, null, arg0Value, arg1Value); } } } }




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