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Truffle is a multi-language framework for executing dynamic languages
that achieves high performance when combined with Graal.
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// CheckStyle: start generated
package com.oracle.truffle.polyglot;
import com.oracle.truffle.api.CompilerDirectives;
import com.oracle.truffle.api.CompilerDirectives.CompilationFinal;
import com.oracle.truffle.api.dsl.GeneratedBy;
import com.oracle.truffle.api.dsl.UnsupportedSpecializationException;
import com.oracle.truffle.api.frame.VirtualFrame;
import com.oracle.truffle.api.nodes.Node;
import com.oracle.truffle.api.nodes.NodeCost;
import com.oracle.truffle.polyglot.ArguentsArrayMessageResolutionForeign.ArgsArrGetSizeSubNode;
import com.oracle.truffle.polyglot.ArguentsArrayMessageResolutionForeign.ArgsArrHasSizeSubNode;
import com.oracle.truffle.polyglot.ArguentsArrayMessageResolutionForeign.ArgsArrReadSubNode;
import com.oracle.truffle.polyglot.ArguentsArrayMessageResolutionForeign.ArgsArrWriteSubNode;
import com.oracle.truffle.polyglot.DefaultScope.ArgumentsArrayObject;
import java.util.concurrent.locks.Lock;
@GeneratedBy(ArguentsArrayMessageResolutionForeign.class)
final class ArguentsArrayMessageResolutionForeignFactory {
@GeneratedBy(ArgsArrWriteSubNode.class)
static final class ArgsArrWriteSubNodeGen extends ArgsArrWriteSubNode {
@CompilationFinal private int state_;
private ArgsArrWriteSubNodeGen() {
}
@Override
public Object executeWithTarget(VirtualFrame frameValue, Object arg0Value, Object arg1Value, Object arg2Value) {
int state = state_;
if (state != 0 /* is-active accessWithTarget(ArgumentsArrayObject, int, Object) */ && arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
if (arg1Value instanceof Integer) {
int arg1Value_ = (int) arg1Value;
return accessWithTarget(arg0Value_, arg1Value_, arg2Value);
}
}
CompilerDirectives.transferToInterpreterAndInvalidate();
return executeAndSpecialize(arg0Value, arg1Value, arg2Value);
}
private Object executeAndSpecialize(Object arg0Value, Object arg1Value, Object arg2Value) {
Lock lock = getLock();
boolean hasLock = true;
lock.lock();
int state = state_;
try {
if (arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
if (arg1Value instanceof Integer) {
int arg1Value_ = (int) arg1Value;
this.state_ = state = state | 0b1 /* add-active accessWithTarget(ArgumentsArrayObject, int, Object) */;
lock.unlock();
hasLock = false;
return accessWithTarget(arg0Value_, arg1Value_, arg2Value);
}
}
CompilerDirectives.transferToInterpreterAndInvalidate();
throw new UnsupportedSpecializationException(this, new Node[] {null, null, null}, arg0Value, arg1Value, arg2Value);
} finally {
if (hasLock) {
lock.unlock();
}
}
}
@Override
public NodeCost getCost() {
int state = state_;
if (state == 0b0) {
return NodeCost.UNINITIALIZED;
} else {
return NodeCost.MONOMORPHIC;
}
}
public static ArgsArrWriteSubNode create() {
return new ArgsArrWriteSubNodeGen();
}
}
@GeneratedBy(ArgsArrReadSubNode.class)
static final class ArgsArrReadSubNodeGen extends ArgsArrReadSubNode {
@CompilationFinal private int state_;
private ArgsArrReadSubNodeGen() {
}
@Override
public Object executeWithTarget(VirtualFrame frameValue, Object arg0Value, Object arg1Value) {
int state = state_;
if (state != 0 /* is-active accessWithTarget(ArgumentsArrayObject, int) */ && arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
if (arg1Value instanceof Integer) {
int arg1Value_ = (int) arg1Value;
return accessWithTarget(arg0Value_, arg1Value_);
}
}
CompilerDirectives.transferToInterpreterAndInvalidate();
return executeAndSpecialize(arg0Value, arg1Value);
}
private Object executeAndSpecialize(Object arg0Value, Object arg1Value) {
Lock lock = getLock();
boolean hasLock = true;
lock.lock();
int state = state_;
try {
if (arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
if (arg1Value instanceof Integer) {
int arg1Value_ = (int) arg1Value;
this.state_ = state = state | 0b1 /* add-active accessWithTarget(ArgumentsArrayObject, int) */;
lock.unlock();
hasLock = false;
return accessWithTarget(arg0Value_, arg1Value_);
}
}
CompilerDirectives.transferToInterpreterAndInvalidate();
throw new UnsupportedSpecializationException(this, new Node[] {null, null}, arg0Value, arg1Value);
} finally {
if (hasLock) {
lock.unlock();
}
}
}
@Override
public NodeCost getCost() {
int state = state_;
if (state == 0b0) {
return NodeCost.UNINITIALIZED;
} else {
return NodeCost.MONOMORPHIC;
}
}
public static ArgsArrReadSubNode create() {
return new ArgsArrReadSubNodeGen();
}
}
@GeneratedBy(ArgsArrGetSizeSubNode.class)
static final class ArgsArrGetSizeSubNodeGen extends ArgsArrGetSizeSubNode {
@CompilationFinal private int state_;
private ArgsArrGetSizeSubNodeGen() {
}
@Override
public Object executeWithTarget(VirtualFrame frameValue, Object arg0Value) {
int state = state_;
if (state != 0 /* is-active accessWithTarget(ArgumentsArrayObject) */ && arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
return accessWithTarget(arg0Value_);
}
CompilerDirectives.transferToInterpreterAndInvalidate();
return executeAndSpecialize(arg0Value);
}
private Object executeAndSpecialize(Object arg0Value) {
Lock lock = getLock();
boolean hasLock = true;
lock.lock();
int state = state_;
try {
if (arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
this.state_ = state = state | 0b1 /* add-active accessWithTarget(ArgumentsArrayObject) */;
lock.unlock();
hasLock = false;
return accessWithTarget(arg0Value_);
}
CompilerDirectives.transferToInterpreterAndInvalidate();
throw new UnsupportedSpecializationException(this, new Node[] {null}, arg0Value);
} finally {
if (hasLock) {
lock.unlock();
}
}
}
@Override
public NodeCost getCost() {
int state = state_;
if (state == 0b0) {
return NodeCost.UNINITIALIZED;
} else {
return NodeCost.MONOMORPHIC;
}
}
public static ArgsArrGetSizeSubNode create() {
return new ArgsArrGetSizeSubNodeGen();
}
}
@GeneratedBy(ArgsArrHasSizeSubNode.class)
static final class ArgsArrHasSizeSubNodeGen extends ArgsArrHasSizeSubNode {
@CompilationFinal private int state_;
private ArgsArrHasSizeSubNodeGen() {
}
@Override
public Object executeWithTarget(VirtualFrame frameValue, Object arg0Value) {
int state = state_;
if (state != 0 /* is-active accessWithTarget(ArgumentsArrayObject) */ && arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
return accessWithTarget(arg0Value_);
}
CompilerDirectives.transferToInterpreterAndInvalidate();
return executeAndSpecialize(arg0Value);
}
private Object executeAndSpecialize(Object arg0Value) {
Lock lock = getLock();
boolean hasLock = true;
lock.lock();
int state = state_;
try {
if (arg0Value instanceof ArgumentsArrayObject) {
ArgumentsArrayObject arg0Value_ = (ArgumentsArrayObject) arg0Value;
this.state_ = state = state | 0b1 /* add-active accessWithTarget(ArgumentsArrayObject) */;
lock.unlock();
hasLock = false;
return accessWithTarget(arg0Value_);
}
CompilerDirectives.transferToInterpreterAndInvalidate();
throw new UnsupportedSpecializationException(this, new Node[] {null}, arg0Value);
} finally {
if (hasLock) {
lock.unlock();
}
}
}
@Override
public NodeCost getCost() {
int state = state_;
if (state == 0b0) {
return NodeCost.UNINITIALIZED;
} else {
return NodeCost.MONOMORPHIC;
}
}
public static ArgsArrHasSizeSubNode create() {
return new ArgsArrHasSizeSubNodeGen();
}
}
}
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