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Truffle SL is an example language implemented using the Truffle API.
// CheckStyle: start generated
package com.oracle.truffle.sl.builtins;
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.NodeFactory;
import com.oracle.truffle.api.dsl.UnsupportedSpecializationException;
import com.oracle.truffle.api.frame.VirtualFrame;
import com.oracle.truffle.api.instrumentation.AllocationReporter;
import com.oracle.truffle.api.interop.InteropLibrary;
import com.oracle.truffle.api.library.LibraryFactory;
import com.oracle.truffle.api.nodes.EncapsulatingNodeReference;
import com.oracle.truffle.api.nodes.ExplodeLoop;
import com.oracle.truffle.api.nodes.Node;
import com.oracle.truffle.api.nodes.NodeCost;
import com.oracle.truffle.sl.nodes.SLExpressionNode;
import com.oracle.truffle.sl.nodes.SLTypes;
import com.oracle.truffle.sl.runtime.SLNull;
import java.lang.invoke.VarHandle;
import java.util.Arrays;
import java.util.List;
import java.util.concurrent.locks.Lock;
@GeneratedBy(SLNewObjectBuiltin.class)
@SuppressWarnings("unused")
public final class SLNewObjectBuiltinFactory implements NodeFactory {
private static final SLNewObjectBuiltinFactory INSTANCE = new SLNewObjectBuiltinFactory();
private static final LibraryFactory INTEROP_LIBRARY_ = LibraryFactory.resolve(InteropLibrary.class);
private SLNewObjectBuiltinFactory() {
}
@Override
public Class getNodeClass() {
return SLNewObjectBuiltin.class;
}
@Override
public List> getExecutionSignature() {
return Arrays.asList(SLExpressionNode.class);
}
@Override
public List>> getNodeSignatures() {
return Arrays.asList(Arrays.asList(SLExpressionNode[].class));
}
@Override
public SLNewObjectBuiltin createNode(Object... arguments) {
if (arguments.length == 1 && (arguments[0] == null || arguments[0] instanceof SLExpressionNode[])) {
return create((SLExpressionNode[]) arguments[0]);
} else {
throw new IllegalArgumentException("Invalid create signature.");
}
}
public static NodeFactory getInstance() {
return INSTANCE;
}
public static SLNewObjectBuiltin create(SLExpressionNode[] arguments) {
return new SLNewObjectBuiltinNodeGen(arguments);
}
@GeneratedBy(SLNewObjectBuiltin.class)
public static final class SLNewObjectBuiltinNodeGen extends SLNewObjectBuiltin {
@Child private SLExpressionNode arguments0_;
@CompilationFinal private volatile int state_0_;
@CompilationFinal private volatile int exclude_;
@CompilationFinal private AllocationReporter newObject0_reporter_;
@Child private NewObject1Data newObject1_cache;
private SLNewObjectBuiltinNodeGen(SLExpressionNode[] arguments) {
this.arguments0_ = arguments != null && 0 < arguments.length ? arguments[0] : null;
}
@ExplodeLoop
@Override
protected Object execute(VirtualFrame frameValue) {
int state_0 = this.state_0_;
Object arguments0Value_ = this.arguments0_.executeGeneric(frameValue);
if ((state_0 & 0b1) != 0 /* is-state_0 newObject(SLNull, AllocationReporter) */ && SLTypes.isSLNull(arguments0Value_)) {
SLNull arguments0Value__ = SLTypes.asSLNull(arguments0Value_);
return newObject(arguments0Value__, this.newObject0_reporter_);
}
if ((state_0 & 0b110) != 0 /* is-state_0 newObject(Object, InteropLibrary) || newObject(Object, InteropLibrary) */) {
if ((state_0 & 0b10) != 0 /* is-state_0 newObject(Object, InteropLibrary) */) {
NewObject1Data s1_ = this.newObject1_cache;
while (s1_ != null) {
if ((s1_.values_.accepts(arguments0Value_)) && (!(s1_.values_.isNull(arguments0Value_)))) {
return newObject(arguments0Value_, s1_.values_);
}
s1_ = s1_.next_;
}
}
if ((state_0 & 0b100) != 0 /* is-state_0 newObject(Object, InteropLibrary) */) {
EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent();
Node prev_ = encapsulating_.set(this);
try {
{
InteropLibrary newObject2_values__ = (INTEROP_LIBRARY_.getUncached());
if ((!(newObject2_values__.isNull(arguments0Value_)))) {
return this.newObject2Boundary(state_0, arguments0Value_);
}
}
} finally {
encapsulating_.set(prev_);
}
}
}
CompilerDirectives.transferToInterpreterAndInvalidate();
return executeAndSpecialize(arguments0Value_);
}
@SuppressWarnings("static-method")
@TruffleBoundary
private Object newObject2Boundary(int state_0, Object arguments0Value_) {
{
InteropLibrary newObject2_values__ = (INTEROP_LIBRARY_.getUncached());
return newObject(arguments0Value_, newObject2_values__);
}
}
private Object executeAndSpecialize(Object arguments0Value) {
Lock lock = getLock();
boolean hasLock = true;
lock.lock();
try {
int state_0 = this.state_0_;
int exclude = this.exclude_;
if (SLTypes.isSLNull(arguments0Value)) {
SLNull arguments0Value_ = SLTypes.asSLNull(arguments0Value);
this.newObject0_reporter_ = (lookup());
this.state_0_ = state_0 = state_0 | 0b1 /* add-state_0 newObject(SLNull, AllocationReporter) */;
lock.unlock();
hasLock = false;
return newObject(arguments0Value_, this.newObject0_reporter_);
}
if ((exclude) == 0 /* is-not-exclude newObject(Object, InteropLibrary) */) {
int count1_ = 0;
NewObject1Data s1_ = this.newObject1_cache;
if ((state_0 & 0b10) != 0 /* is-state_0 newObject(Object, InteropLibrary) */) {
while (s1_ != null) {
if ((s1_.values_.accepts(arguments0Value)) && (!(s1_.values_.isNull(arguments0Value)))) {
break;
}
s1_ = s1_.next_;
count1_++;
}
}
if (s1_ == null) {
{
InteropLibrary values__ = super.insert((INTEROP_LIBRARY_.create(arguments0Value)));
// assert (s1_.values_.accepts(arguments0Value));
if ((!(values__.isNull(arguments0Value))) && count1_ < (3)) {
s1_ = super.insert(new NewObject1Data(newObject1_cache));
s1_.values_ = s1_.insertAccessor(values__);
VarHandle.storeStoreFence();
this.newObject1_cache = s1_;
this.state_0_ = state_0 = state_0 | 0b10 /* add-state_0 newObject(Object, InteropLibrary) */;
}
}
}
if (s1_ != null) {
lock.unlock();
hasLock = false;
return newObject(arguments0Value, s1_.values_);
}
}
{
InteropLibrary newObject2_values__ = null;
{
EncapsulatingNodeReference encapsulating_ = EncapsulatingNodeReference.getCurrent();
Node prev_ = encapsulating_.set(this);
try {
{
newObject2_values__ = (INTEROP_LIBRARY_.getUncached());
if ((!(newObject2_values__.isNull(arguments0Value)))) {
this.exclude_ = exclude = exclude | 0b1 /* add-exclude newObject(Object, InteropLibrary) */;
this.newObject1_cache = null;
state_0 = state_0 & 0xfffffffd /* remove-state_0 newObject(Object, InteropLibrary) */;
this.state_0_ = state_0 = state_0 | 0b100 /* add-state_0 newObject(Object, InteropLibrary) */;
lock.unlock();
hasLock = false;
return newObject(arguments0Value, newObject2_values__);
}
}
} finally {
encapsulating_.set(prev_);
}
}
}
throw new UnsupportedSpecializationException(this, new Node[] {this.arguments0_}, arguments0Value);
} finally {
if (hasLock) {
lock.unlock();
}
}
}
@Override
public NodeCost getCost() {
int state_0 = this.state_0_;
if (state_0 == 0) {
return NodeCost.UNINITIALIZED;
} else {
if ((state_0 & (state_0 - 1)) == 0 /* is-single-state_0 */) {
NewObject1Data s1_ = this.newObject1_cache;
if ((s1_ == null || s1_.next_ == null)) {
return NodeCost.MONOMORPHIC;
}
}
}
return NodeCost.POLYMORPHIC;
}
@GeneratedBy(SLNewObjectBuiltin.class)
private static final class NewObject1Data extends Node {
@Child NewObject1Data next_;
@Child InteropLibrary values_;
NewObject1Data(NewObject1Data next_) {
this.next_ = next_;
}
@Override
public NodeCost getCost() {
return NodeCost.NONE;
}
T insertAccessor(T node) {
return super.insert(node);
}
}
}
}