public virtual global::java.lang.Runnable getCWithJavaInterface(global::java.lang.Runnable par0) { global::net.sf.jni4net.jni.JNIEnv @__env = this.Env; using (new global::net.sf.jni4net.jni.LocalFrame(@__env, 12)){ return(global::net.sf.jni4net.utils.Convertor.FullJ2C <global::java.lang.Runnable>(@__env, @__env.CallObjectMethodPtr(this, global::net.sf.jni4net.tested.JInterfacesHelper.j4n_getCWithJavaInterface1, global::net.sf.jni4net.utils.Convertor.ParFullC2J <global::java.lang.Runnable>(@__env, par0)))); } }
private static void run0(global::System.IntPtr @__envp, global::net.sf.jni4net.utils.JniLocalHandle @__obj) { // ()V // ()V global::net.sf.jni4net.jni.JNIEnv @__env = global::net.sf.jni4net.jni.JNIEnv.Wrap(@__envp); try { global::java.lang.Runnable @__real = global::net.sf.jni4net.utils.Convertor.FullJ2C <global::java.lang.Runnable>(@__env, @__obj); @__real.run(); }catch (global::System.Exception __ex) { @__env.ThrowExisting(__ex); } }
public CyclicBarrier(int prm1, global::java.lang.Runnable prm2) { }
protected virtual void beforeExecute(global::java.lang.Thread prm1, global::java.lang.Runnable prm2) { }
public override void execute(global::java.lang.Runnable prm1) { }
public virtual void rejectedExecution(global::java.lang.Runnable prm1, global::java.util.concurrent.ThreadPoolExecutor prm2) { }
protected virtual void afterExecute(global::java.lang.Runnable prm1, global::java.lang.Throwable prm2) { }
public FutureTask(global::java.lang.Runnable prm1, V prm2) { }
public static ForkJoinTask <global::System.Object> adapt(global::java.lang.Runnable prm1) { return(default(ForkJoinTask <global::System.Object>)); }
public virtual void execute(global::java.lang.Runnable prm1) { }
public virtual Future <T> submit <T>(global::java.lang.Runnable prm1, T prm2) { return(default(Future <T>)); }
public static Callable <global::System.Object> callable(global::java.lang.Runnable prm1) { return(default(Callable <global::System.Object>)); }
public static Callable <T> callable <T>(global::java.lang.Runnable prm1, T prm2) { return(default(Callable <T>)); }
public virtual ForkJoinTask <T> submit <T>(global::java.lang.Runnable prm1, T prm2) { return(default(ForkJoinTask <T>)); }
public DirectByteBuffer(int prm1, long prm2, global::java.io.FileDescriptor prm3, global::java.lang.Runnable prm4) { }
public DirectByteBufferR(int prm1, long prm2, global::java.io.FileDescriptor prm3, global::java.lang.Runnable prm4) : base(default(int), default(long), default(global::java.io.FileDescriptor), default(global::java.lang.Runnable)) { }
public virtual Future <V> submit(global::java.lang.Runnable prm1, V prm2) { return(default(Future <V>)); }
public static Cleaner create(global::System.Object prm1, global::java.lang.Runnable prm2) { return(default(Cleaner)); }
protected virtual RunnableFuture <T> newTaskFor <T>(global::java.lang.Runnable prm1, T prm2) { return(default(RunnableFuture <T>)); }
protected virtual RunnableScheduledFuture <V> decorateTask <V>(global::java.lang.Runnable prm1, RunnableScheduledFuture <V> prm2) { return(default(RunnableScheduledFuture <V>)); }
public virtual Future <global::System.Object> submit(global::java.lang.Runnable prm1) { return(default(Future <global::System.Object>)); }
public virtual ScheduledFuture <global::System.Object> scheduleWithFixedDelay(global::java.lang.Runnable prm1, long prm2, long prm3, TimeUnit prm4) { return(default(ScheduledFuture <global::System.Object>)); }
public virtual bool remove(global::java.lang.Runnable prm1) { return(default(bool)); }
public static ForkJoinTask <T> adapt <T>(global::java.lang.Runnable prm1, T prm2) { return(default(ForkJoinTask <T>)); }