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AtomicReferenceFieldUpdater.swift
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228 lines (173 loc) · 13.7 KB
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import java_swift
/// generated by: genswift.java 'java/lang|java/util|java/sql|java/awt|javax/swing' ///
/// class java.util.concurrent.atomic.AtomicReferenceFieldUpdater ///
open class AtomicReferenceFieldUpdater: java_swift.JavaObject {
public convenience init?( casting object: java_swift.JavaObject, _ file: StaticString = #file, _ line: Int = #line ) {
self.init( javaObject: nil )
object.withJavaObject {
self.javaObject = $0
}
}
private static var AtomicReferenceFieldUpdaterJNIClass: jclass?
/// protected java.util.concurrent.atomic.AtomicReferenceFieldUpdater()
private static var new_MethodID_1: jmethodID?
public convenience init() {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 1 )
let __object = JNIMethod.NewObject( className: "java/util/concurrent/atomic/AtomicReferenceFieldUpdater", classCache: &AtomicReferenceFieldUpdater.AtomicReferenceFieldUpdaterJNIClass, methodSig: "()V", methodCache: &AtomicReferenceFieldUpdater.new_MethodID_1, args: &__args, locals: &__locals )
self.init( javaObject: __object )
JNI.DeleteLocalRef( __object )
}
/// public static java.util.concurrent.atomic.AtomicReferenceFieldUpdater java.util.concurrent.atomic.AtomicReferenceFieldUpdater.newUpdater(java.lang.Class,java.lang.Class,java.lang.String)
private static var newUpdater_MethodID_2: jmethodID?
open class func newUpdater( arg0: java_swift.JavaClass?, arg1: java_swift.JavaClass?, arg2: String? ) -> AtomicReferenceFieldUpdater! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 3 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
__args[2] = JNIType.toJava( value: arg2, locals: &__locals )
let __return = JNIMethod.CallStaticObjectMethod( className: "java/util/concurrent/atomic/AtomicReferenceFieldUpdater", classCache: &AtomicReferenceFieldUpdaterJNIClass, methodName: "newUpdater", methodSig: "(Ljava/lang/Class;Ljava/lang/Class;Ljava/lang/String;)Ljava/util/concurrent/atomic/AtomicReferenceFieldUpdater;", methodCache: &newUpdater_MethodID_2, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? AtomicReferenceFieldUpdater( javaObject: __return ) : nil
}
open class func newUpdater( _ _arg0: java_swift.JavaClass?, _ _arg1: java_swift.JavaClass?, _ _arg2: String? ) -> AtomicReferenceFieldUpdater! {
return newUpdater( arg0: _arg0, arg1: _arg1, arg2: _arg2 )
}
/// public final java.lang.Object java.util.concurrent.atomic.AtomicReferenceFieldUpdater.accumulateAndGet(java.lang.Object,java.lang.Object,java.util.function.BinaryOperator)
private static var accumulateAndGet_MethodID_3: jmethodID?
open func accumulateAndGet( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject?, arg2: BinaryOperator? ) -> java_swift.JavaObject! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 3 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
__args[2] = JNIType.toJava( value: arg2, locals: &__locals )
let __return = JNIMethod.CallObjectMethod( object: javaObject, methodName: "accumulateAndGet", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;Ljava/util/function/BinaryOperator;)Ljava/lang/Object;", methodCache: &AtomicReferenceFieldUpdater.accumulateAndGet_MethodID_3, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? java_swift.JavaObject( javaObject: __return ) : nil
}
open func accumulateAndGet( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject?, _ _arg2: BinaryOperator? ) -> java_swift.JavaObject! {
return accumulateAndGet( arg0: _arg0, arg1: _arg1, arg2: _arg2 )
}
/// public abstract boolean java.util.concurrent.atomic.AtomicReferenceFieldUpdater.compareAndSet(java.lang.Object,java.lang.Object,java.lang.Object)
private static var compareAndSet_MethodID_4: jmethodID?
open func compareAndSet( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject?, arg2: java_swift.JavaObject? ) -> Bool {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 3 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
__args[2] = JNIType.toJava( value: arg2, locals: &__locals )
let __return = JNIMethod.CallBooleanMethod( object: javaObject, methodName: "compareAndSet", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;Ljava/lang/Object;)Z", methodCache: &AtomicReferenceFieldUpdater.compareAndSet_MethodID_4, args: &__args, locals: &__locals )
return __return != jboolean(JNI_FALSE)
}
open func compareAndSet( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject?, _ _arg2: java_swift.JavaObject? ) -> Bool {
return compareAndSet( arg0: _arg0, arg1: _arg1, arg2: _arg2 )
}
/// public abstract java.lang.Object java.util.concurrent.atomic.AtomicReferenceFieldUpdater.get(java.lang.Object)
private static var get_MethodID_5: jmethodID?
open func get( arg0: java_swift.JavaObject? ) -> java_swift.JavaObject! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 1 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
let __return = JNIMethod.CallObjectMethod( object: javaObject, methodName: "get", methodSig: "(Ljava/lang/Object;)Ljava/lang/Object;", methodCache: &AtomicReferenceFieldUpdater.get_MethodID_5, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? java_swift.JavaObject( javaObject: __return ) : nil
}
open func get( _ _arg0: java_swift.JavaObject? ) -> java_swift.JavaObject! {
return get( arg0: _arg0 )
}
/// public final java.lang.Object java.util.concurrent.atomic.AtomicReferenceFieldUpdater.getAndAccumulate(java.lang.Object,java.lang.Object,java.util.function.BinaryOperator)
private static var getAndAccumulate_MethodID_6: jmethodID?
open func getAndAccumulate( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject?, arg2: BinaryOperator? ) -> java_swift.JavaObject! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 3 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
__args[2] = JNIType.toJava( value: arg2, locals: &__locals )
let __return = JNIMethod.CallObjectMethod( object: javaObject, methodName: "getAndAccumulate", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;Ljava/util/function/BinaryOperator;)Ljava/lang/Object;", methodCache: &AtomicReferenceFieldUpdater.getAndAccumulate_MethodID_6, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? java_swift.JavaObject( javaObject: __return ) : nil
}
open func getAndAccumulate( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject?, _ _arg2: BinaryOperator? ) -> java_swift.JavaObject! {
return getAndAccumulate( arg0: _arg0, arg1: _arg1, arg2: _arg2 )
}
/// public java.lang.Object java.util.concurrent.atomic.AtomicReferenceFieldUpdater.getAndSet(java.lang.Object,java.lang.Object)
private static var getAndSet_MethodID_7: jmethodID?
open func getAndSet( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject? ) -> java_swift.JavaObject! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 2 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
let __return = JNIMethod.CallObjectMethod( object: javaObject, methodName: "getAndSet", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;)Ljava/lang/Object;", methodCache: &AtomicReferenceFieldUpdater.getAndSet_MethodID_7, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? java_swift.JavaObject( javaObject: __return ) : nil
}
open func getAndSet( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject? ) -> java_swift.JavaObject! {
return getAndSet( arg0: _arg0, arg1: _arg1 )
}
/// public final java.lang.Object java.util.concurrent.atomic.AtomicReferenceFieldUpdater.getAndUpdate(java.lang.Object,java.util.function.UnaryOperator)
private static var getAndUpdate_MethodID_8: jmethodID?
open func getAndUpdate( arg0: java_swift.JavaObject?, arg1: UnaryOperator? ) -> java_swift.JavaObject! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 2 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
let __return = JNIMethod.CallObjectMethod( object: javaObject, methodName: "getAndUpdate", methodSig: "(Ljava/lang/Object;Ljava/util/function/UnaryOperator;)Ljava/lang/Object;", methodCache: &AtomicReferenceFieldUpdater.getAndUpdate_MethodID_8, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? java_swift.JavaObject( javaObject: __return ) : nil
}
open func getAndUpdate( _ _arg0: java_swift.JavaObject?, _ _arg1: UnaryOperator? ) -> java_swift.JavaObject! {
return getAndUpdate( arg0: _arg0, arg1: _arg1 )
}
/// public abstract void java.util.concurrent.atomic.AtomicReferenceFieldUpdater.lazySet(java.lang.Object,java.lang.Object)
private static var lazySet_MethodID_9: jmethodID?
open func lazySet( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject? ) {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 2 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
JNIMethod.CallVoidMethod( object: javaObject, methodName: "lazySet", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;)V", methodCache: &AtomicReferenceFieldUpdater.lazySet_MethodID_9, args: &__args, locals: &__locals )
}
open func lazySet( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject? ) {
lazySet( arg0: _arg0, arg1: _arg1 )
}
/// public abstract void java.util.concurrent.atomic.AtomicReferenceFieldUpdater.set(java.lang.Object,java.lang.Object)
private static var set_MethodID_10: jmethodID?
open func set( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject? ) {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 2 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
JNIMethod.CallVoidMethod( object: javaObject, methodName: "set", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;)V", methodCache: &AtomicReferenceFieldUpdater.set_MethodID_10, args: &__args, locals: &__locals )
}
open func set( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject? ) {
set( arg0: _arg0, arg1: _arg1 )
}
/// public final java.lang.Object java.util.concurrent.atomic.AtomicReferenceFieldUpdater.updateAndGet(java.lang.Object,java.util.function.UnaryOperator)
private static var updateAndGet_MethodID_11: jmethodID?
open func updateAndGet( arg0: java_swift.JavaObject?, arg1: UnaryOperator? ) -> java_swift.JavaObject! {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 2 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
let __return = JNIMethod.CallObjectMethod( object: javaObject, methodName: "updateAndGet", methodSig: "(Ljava/lang/Object;Ljava/util/function/UnaryOperator;)Ljava/lang/Object;", methodCache: &AtomicReferenceFieldUpdater.updateAndGet_MethodID_11, args: &__args, locals: &__locals )
defer { JNI.DeleteLocalRef( __return ) }
return __return != nil ? java_swift.JavaObject( javaObject: __return ) : nil
}
open func updateAndGet( _ _arg0: java_swift.JavaObject?, _ _arg1: UnaryOperator? ) -> java_swift.JavaObject! {
return updateAndGet( arg0: _arg0, arg1: _arg1 )
}
/// public abstract boolean java.util.concurrent.atomic.AtomicReferenceFieldUpdater.weakCompareAndSet(java.lang.Object,java.lang.Object,java.lang.Object)
private static var weakCompareAndSet_MethodID_12: jmethodID?
open func weakCompareAndSet( arg0: java_swift.JavaObject?, arg1: java_swift.JavaObject?, arg2: java_swift.JavaObject? ) -> Bool {
var __locals = [jobject]()
var __args = [jvalue]( repeating: jvalue(), count: 3 )
__args[0] = JNIType.toJava( value: arg0, locals: &__locals )
__args[1] = JNIType.toJava( value: arg1, locals: &__locals )
__args[2] = JNIType.toJava( value: arg2, locals: &__locals )
let __return = JNIMethod.CallBooleanMethod( object: javaObject, methodName: "weakCompareAndSet", methodSig: "(Ljava/lang/Object;Ljava/lang/Object;Ljava/lang/Object;)Z", methodCache: &AtomicReferenceFieldUpdater.weakCompareAndSet_MethodID_12, args: &__args, locals: &__locals )
return __return != jboolean(JNI_FALSE)
}
open func weakCompareAndSet( _ _arg0: java_swift.JavaObject?, _ _arg1: java_swift.JavaObject?, _ _arg2: java_swift.JavaObject? ) -> Bool {
return weakCompareAndSet( arg0: _arg0, arg1: _arg1, arg2: _arg2 )
}
}