final class io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor extends io.smallrye.mutiny.operators.multi.MultiOperatorProcessor implements java.lang.Runnable
{
private final java.util.ArrayDeque processors;
private final java.util.function.Supplier supplier;
private final java.util.Queue overflow;
private final int size;
private final int skip;
private final java.util.concurrent.atomic.AtomicReference failure;
private final java.util.concurrent.atomic.AtomicInteger count;
private final java.util.concurrent.atomic.AtomicBoolean firstRequest;
private final java.util.concurrent.atomic.AtomicLong requested;
private final java.util.concurrent.atomic.AtomicInteger wip;
private int index;
private int produced;
void <init>(io.smallrye.mutiny.subscription.MultiSubscriber, int, int, java.util.function.Supplier, java.util.Queue)
{
java.util.concurrent.atomic.AtomicBoolean v;
java.util.concurrent.atomic.AtomicReference v;
java.util.function.Supplier v;
java.util.concurrent.atomic.AtomicLong v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.util.concurrent.atomic.AtomicInteger v, v, v;
int v, v;
java.util.Queue v;
java.util.ArrayDeque v;
io.smallrye.mutiny.subscription.MultiSubscriber v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v := @parameter: io.smallrye.mutiny.subscription.MultiSubscriber;
v := @parameter: int;
v := @parameter: int;
v := @parameter: java.util.function.Supplier;
v := @parameter: java.util.Queue;
specialinvoke v.<io.smallrye.mutiny.operators.multi.MultiOperatorProcessor: void <init>(io.smallrye.mutiny.subscription.MultiSubscriber)>(v);
v = new java.util.ArrayDeque;
specialinvoke v.<java.util.ArrayDeque: void <init>()>();
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors> = v;
v = new java.util.concurrent.atomic.AtomicReference;
specialinvoke v.<java.util.concurrent.atomic.AtomicReference: void <init>()>();
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicReference failure> = v;
v = new java.util.concurrent.atomic.AtomicInteger;
specialinvoke v.<java.util.concurrent.atomic.AtomicInteger: void <init>()>();
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger count> = v;
v = new java.util.concurrent.atomic.AtomicBoolean;
specialinvoke v.<java.util.concurrent.atomic.AtomicBoolean: void <init>()>();
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicBoolean firstRequest> = v;
v = new java.util.concurrent.atomic.AtomicLong;
specialinvoke v.<java.util.concurrent.atomic.AtomicLong: void <init>()>();
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicLong requested> = v;
v = new java.util.concurrent.atomic.AtomicInteger;
specialinvoke v.<java.util.concurrent.atomic.AtomicInteger: void <init>()>();
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger wip> = v;
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int size> = v;
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int skip> = v;
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.function.Supplier supplier> = v;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger count>;
virtualinvoke v.<java.util.concurrent.atomic.AtomicInteger: void lazySet(int)>(1);
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.Queue overflow> = v;
return;
}
public void onItem(java.lang.Object)
{
java.util.function.Supplier v;
java.util.concurrent.atomic.AtomicInteger v;
io.smallrye.mutiny.operators.multi.processors.UnicastProcessor v;
int v, v, v, v, v, v, v, v;
boolean v, v, v;
java.util.Iterator v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.lang.Object v, v, v, v;
java.util.Queue v;
java.util.ArrayDeque v, v, v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v := @parameter: java.lang.Object;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isDone()>();
if v == 0 goto label;
return;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int index>;
if v != 0 goto label;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isCancelled()>();
if v != 0 goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger count>;
virtualinvoke v.<java.util.concurrent.atomic.AtomicInteger: int getAndIncrement()>();
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.function.Supplier supplier>;
v = interfaceinvoke v.<java.util.function.Supplier: java.lang.Object get()>();
v = staticinvoke <io.smallrye.mutiny.operators.multi.processors.UnicastProcessor: io.smallrye.mutiny.operators.multi.processors.UnicastProcessor create(java.util.Queue,java.lang.Runnable)>(v, v);
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
virtualinvoke v.<java.util.ArrayDeque: boolean offer(java.lang.Object)>(v);
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.Queue overflow>;
interfaceinvoke v.<java.util.Queue: boolean offer(java.lang.Object)>(v);
virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: void drain()>();
label:
v = v + 1;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
v = virtualinvoke v.<java.util.ArrayDeque: java.util.Iterator iterator()>();
label:
v = interfaceinvoke v.<java.util.Iterator: boolean hasNext()>();
if v == 0 goto label;
v = interfaceinvoke v.<java.util.Iterator: java.lang.Object next()>();
virtualinvoke v.<io.smallrye.mutiny.operators.multi.processors.UnicastProcessor: void onNext(java.lang.Object)>(v);
goto label;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int produced>;
v = v + 1;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int size>;
if v != v goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int skip>;
v = v - v;
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int produced> = v;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
v = virtualinvoke v.<java.util.ArrayDeque: java.lang.Object poll()>();
if v == null goto label;
virtualinvoke v.<io.smallrye.mutiny.operators.multi.processors.UnicastProcessor: void onComplete()>();
goto label;
label:
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int produced> = v;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int skip>;
if v != v goto label;
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int index> = 0;
goto label;
label:
v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int index> = v;
label:
return;
}
public void onFailure(java.lang.Throwable)
{
java.lang.Throwable v;
java.util.Iterator v;
io.smallrye.mutiny.helpers.Subscriptions$EmptySubscription v, v;
java.util.concurrent.atomic.AtomicReference v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.lang.Object v;
java.util.ArrayDeque v, v;
boolean v;
java.util.concurrent.Flow$Subscription v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v := @parameter: java.lang.Throwable;
v = <io.smallrye.mutiny.helpers.Subscriptions: io.smallrye.mutiny.helpers.Subscriptions$EmptySubscription CANCELLED>;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.Flow$Subscription getAndSetUpstreamSubscription(java.util.concurrent.Flow$Subscription)>(v);
v = <io.smallrye.mutiny.helpers.Subscriptions: io.smallrye.mutiny.helpers.Subscriptions$EmptySubscription CANCELLED>;
if v == v goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
v = virtualinvoke v.<java.util.ArrayDeque: java.util.Iterator iterator()>();
label:
v = interfaceinvoke v.<java.util.Iterator: boolean hasNext()>();
if v == 0 goto label;
v = interfaceinvoke v.<java.util.Iterator: java.lang.Object next()>();
virtualinvoke v.<io.smallrye.mutiny.operators.multi.processors.UnicastProcessor: void onError(java.lang.Throwable)>(v);
goto label;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
virtualinvoke v.<java.util.ArrayDeque: void clear()>();
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicReference failure>;
virtualinvoke v.<java.util.concurrent.atomic.AtomicReference: void set(java.lang.Object)>(v);
virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: void drain()>();
goto label;
label:
staticinvoke <io.smallrye.mutiny.infrastructure.Infrastructure: void handleDroppedException(java.lang.Throwable)>(v);
label:
return;
}
public void onCompletion()
{
java.util.Iterator v;
io.smallrye.mutiny.helpers.Subscriptions$EmptySubscription v, v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.lang.Object v;
java.util.ArrayDeque v, v;
boolean v;
java.util.concurrent.Flow$Subscription v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v = <io.smallrye.mutiny.helpers.Subscriptions: io.smallrye.mutiny.helpers.Subscriptions$EmptySubscription CANCELLED>;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.Flow$Subscription getAndSetUpstreamSubscription(java.util.concurrent.Flow$Subscription)>(v);
v = <io.smallrye.mutiny.helpers.Subscriptions: io.smallrye.mutiny.helpers.Subscriptions$EmptySubscription CANCELLED>;
if v == v goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
v = virtualinvoke v.<java.util.ArrayDeque: java.util.Iterator iterator()>();
label:
v = interfaceinvoke v.<java.util.Iterator: boolean hasNext()>();
if v == 0 goto label;
v = interfaceinvoke v.<java.util.Iterator: java.lang.Object next()>();
virtualinvoke v.<io.smallrye.mutiny.operators.multi.processors.UnicastProcessor: void onComplete()>();
goto label;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.ArrayDeque processors>;
virtualinvoke v.<java.util.ArrayDeque: void clear()>();
virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: void drain()>();
label:
return;
}
void drain()
{
long v, v, v;
byte v, v, v, v;
java.util.concurrent.atomic.AtomicInteger v, v;
int v, v, v;
io.smallrye.mutiny.subscription.MultiSubscriber v;
boolean v, v, v, v, v, v;
java.util.concurrent.atomic.AtomicLong v, v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.lang.Object v;
java.util.Queue v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger wip>;
v = virtualinvoke v.<java.util.concurrent.atomic.AtomicInteger: int getAndIncrement()>();
if v == 0 goto label;
return;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: io.smallrye.mutiny.subscription.MultiSubscriber downstream>;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.Queue overflow>;
v = 1;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicLong requested>;
v = virtualinvoke v.<java.util.concurrent.atomic.AtomicLong: long get()>();
v = 0L;
label:
v = v cmp v;
if v == 0 goto label;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isDone()>();
v = interfaceinvoke v.<java.util.Queue: java.lang.Object poll()>();
if v != null goto label;
v = 1;
goto label;
label:
v = 0;
label:
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isCancelledOrDone(boolean,boolean,java.util.concurrent.Flow$Subscriber,java.util.Queue)>(v, v, v, v);
if v == 0 goto label;
return;
label:
if v != 0 goto label;
interfaceinvoke v.<io.smallrye.mutiny.subscription.MultiSubscriber: void onItem(java.lang.Object)>(v);
v = v + 1L;
goto label;
label:
v = v cmp v;
if v != 0 goto label;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isDone()>();
v = interfaceinvoke v.<java.util.Queue: boolean isEmpty()>();
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isCancelledOrDone(boolean,boolean,java.util.concurrent.Flow$Subscriber,java.util.Queue)>(v, v, v, v);
if v == 0 goto label;
return;
label:
v = v cmp 0L;
if v == 0 goto label;
v = v cmp 9223372036854775807L;
if v == 0 goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicLong requested>;
v = neg v;
virtualinvoke v.<java.util.concurrent.atomic.AtomicLong: long addAndGet(long)>(v);
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger wip>;
v = neg v;
v = virtualinvoke v.<java.util.concurrent.atomic.AtomicInteger: int addAndGet(int)>(v);
if v != 0 goto label;
return;
}
boolean isCancelledOrDone(boolean, boolean, java.util.concurrent.Flow$Subscriber, java.util.Queue)
{
java.util.concurrent.atomic.AtomicReference v;
java.util.concurrent.Flow$Subscriber v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.lang.Object v;
java.util.Queue v;
boolean v, v, v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v := @parameter: boolean;
v := @parameter: boolean;
v := @parameter: java.util.concurrent.Flow$Subscriber;
v := @parameter: java.util.Queue;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean isCancelled()>();
if v == 0 goto label;
interfaceinvoke v.<java.util.Queue: void clear()>();
return 1;
label:
if v == 0 goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicReference failure>;
v = virtualinvoke v.<java.util.concurrent.atomic.AtomicReference: java.lang.Object get()>();
if v == null goto label;
interfaceinvoke v.<java.util.Queue: void clear()>();
interfaceinvoke v.<java.util.concurrent.Flow$Subscriber: void onError(java.lang.Throwable)>(v);
return 1;
label:
if v == 0 goto label;
interfaceinvoke v.<java.util.concurrent.Flow$Subscriber: void onComplete()>();
return 1;
label:
return 0;
}
public void request(long)
{
java.util.concurrent.atomic.AtomicBoolean v;
long v, v, v, v, v;
java.util.concurrent.atomic.AtomicLong v;
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
int v, v, v;
boolean v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v := @parameter: long;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicLong requested>;
staticinvoke <io.smallrye.mutiny.helpers.Subscriptions: long add(java.util.concurrent.atomic.AtomicLong,long)>(v, v);
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicBoolean firstRequest>;
v = virtualinvoke v.<java.util.concurrent.atomic.AtomicBoolean: boolean compareAndSet(boolean,boolean)>(0, 1);
if v == 0 goto label;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int skip>;
v = v - 1L;
v = staticinvoke <io.smallrye.mutiny.helpers.Subscriptions: long multiply(long,long)>(v, v);
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int size>;
v = staticinvoke <io.smallrye.mutiny.helpers.Subscriptions: long add(long,long)>(v, v);
specialinvoke v.<io.smallrye.mutiny.operators.multi.MultiOperatorProcessor: void request(long)>(v);
goto label;
label:
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: int skip>;
v = staticinvoke <io.smallrye.mutiny.helpers.Subscriptions: long multiply(long,long)>(v, v);
specialinvoke v.<io.smallrye.mutiny.operators.multi.MultiOperatorProcessor: void request(long)>(v);
label:
virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: void drain()>();
return;
}
public void cancel()
{
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
boolean v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: boolean compareAndSwapDownstreamCancellationRequest()>();
if v == 0 goto label;
virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: void run()>();
label:
return;
}
public void run()
{
io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor v;
java.util.concurrent.atomic.AtomicInteger v;
int v;
java.util.concurrent.Flow$Subscription v;
v := @this: io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor;
v = v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.atomic.AtomicInteger count>;
v = virtualinvoke v.<java.util.concurrent.atomic.AtomicInteger: int decrementAndGet()>();
if v != 0 goto label;
v = virtualinvoke v.<io.smallrye.mutiny.operators.multi.MultiWindowOp$MultiWindowWithOverlapProcessor: java.util.concurrent.Flow$Subscription getUpstreamSubscription()>();
interfaceinvoke v.<java.util.concurrent.Flow$Subscription: void cancel()>();
label:
return;
}
}