public class org.apache.commons.lang.concurrent.EventCountCircuitBreaker extends org.apache.commons.lang.concurrent.AbstractCircuitBreaker { private static final java.util.Map STRATEGY_MAP; private final java.util.concurrent.atomic.AtomicReference checkIntervalData; private final int openingThreshold; private final long openingInterval; private final int closingThreshold; private final long closingInterval; public void (int, long, java.util.concurrent.TimeUnit, int, long, java.util.concurrent.TimeUnit) { long v, v, v, v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v; java.util.concurrent.atomic.AtomicReference v; java.util.concurrent.TimeUnit v, v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; int v, v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: int; v := @parameter: long; v := @parameter: java.util.concurrent.TimeUnit; v := @parameter: int; v := @parameter: long; v := @parameter: java.util.concurrent.TimeUnit; specialinvoke v.()>(); v = new java.util.concurrent.atomic.AtomicReference; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; specialinvoke v.(int,long)>(0, 0L); specialinvoke v.(java.lang.Object)>(v); v. = v; v. = v; v = virtualinvoke v.(v); v. = v; v. = v; v = virtualinvoke v.(v); v. = v; return; } public void (int, long, java.util.concurrent.TimeUnit, int) { java.util.concurrent.TimeUnit v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; int v, v; long v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: int; v := @parameter: long; v := @parameter: java.util.concurrent.TimeUnit; v := @parameter: int; specialinvoke v.(int,long,java.util.concurrent.TimeUnit,int,long,java.util.concurrent.TimeUnit)>(v, v, v, v, v, v); return; } public void (int, long, java.util.concurrent.TimeUnit) { java.util.concurrent.TimeUnit v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; int v; long v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: int; v := @parameter: long; v := @parameter: java.util.concurrent.TimeUnit; specialinvoke v.(int,long,java.util.concurrent.TimeUnit,int)>(v, v, v, v); return; } public int getOpeningThreshold() { int v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = v.; return v; } public long getOpeningInterval() { long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = v.; return v; } public int getClosingThreshold() { int v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = v.; return v; } public long getClosingInterval() { long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = v.; return v; } public boolean checkState() { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; boolean v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = specialinvoke v.(0); return v; } public boolean incrementAndCheckState(java.lang.Integer) { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; int v; java.lang.Integer v; boolean v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: java.lang.Integer; v = virtualinvoke v.(); v = specialinvoke v.(v); return v; } public boolean incrementAndCheckState() { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; java.lang.Integer v; boolean v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = staticinvoke (1); v = virtualinvoke v.(v); return v; } public void open() { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v; java.util.concurrent.atomic.AtomicReference v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; specialinvoke v.(); v = v.; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; v = virtualinvoke v.(); specialinvoke v.(int,long)>(0, v); virtualinvoke v.(v); return; } public void close() { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v; java.util.concurrent.atomic.AtomicReference v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; specialinvoke v.(); v = v.; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; v = virtualinvoke v.(); specialinvoke v.(int,long)>(0, v); virtualinvoke v.(v); return; } private boolean performStateCheck(int) { long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v; java.util.concurrent.atomic.AtomicReference v, v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategy v; int v; java.lang.Object v, v; boolean v, v, v, v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: int; label: v = virtualinvoke v.(); v = v.; v = virtualinvoke v.(); v = v.; v = virtualinvoke v.(); v = specialinvoke v.(v, v, v, v); v = specialinvoke v.(v, v); if v == 0 goto label; v = staticinvoke (v); v = virtualinvoke v.(v, v, v); if v == 0 goto label; v = virtualinvoke v.(); specialinvoke v.(v); label: v = staticinvoke (v); if v != 0 goto label; v = 1; goto label; label: v = 0; label: return v; } private boolean updateCheckIntervalData(org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData, org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData) { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v, v; java.util.concurrent.atomic.AtomicReference v; boolean v, v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; v := @parameter: org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; if v == v goto label; v = v.; v = virtualinvoke v.(v, v); if v == 0 goto label; label: v = 1; goto label; label: v = 0; label: return v; } private void changeStateAndStartNewCheckInterval(org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State) { org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State v; long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v; java.util.concurrent.atomic.AtomicReference v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State; virtualinvoke v.(v); v = v.; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; v = virtualinvoke v.(); specialinvoke v.(int,long)>(0, v); virtualinvoke v.(v); return; } private org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData nextCheckIntervalData(int, org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData, org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State, long) { org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State v; long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData v, v, v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategy v; int v; boolean v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v := @parameter: int; v := @parameter: org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; v := @parameter: org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State; v := @parameter: long; v = staticinvoke (v); v = virtualinvoke v.(v, v, v); if v == 0 goto label; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$CheckIntervalData; specialinvoke v.(int,long)>(v, v); v = v; goto label; label: v = virtualinvoke v.(v); label: return v; } long nanoTime() { long v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker v; v := @this: org.apache.commons.lang.concurrent.EventCountCircuitBreaker; v = staticinvoke (); return v; } private static org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategy stateStrategy(org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State) { java.lang.Object v; org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State v; java.util.Map v; v := @parameter: org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State; v = ; v = interfaceinvoke v.(v); return v; } private static java.util.Map createStrategyMap() { org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategyOpen v; java.util.EnumMap v; org.apache.commons.lang.concurrent.AbstractCircuitBreaker$State v, v; org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategyClosed v; v = new java.util.EnumMap; specialinvoke v.(java.lang.Class)>(class "Lorg/apache/commons/lang3/concurrent/AbstractCircuitBreaker$State;"); v = ; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategyClosed; specialinvoke v.()>(); interfaceinvoke v.(v, v); v = ; v = new org.apache.commons.lang.concurrent.EventCountCircuitBreaker$StateStrategyOpen; specialinvoke v.()>(); interfaceinvoke v.(v, v); return v; } static void () { java.util.Map v; v = staticinvoke (); = v; return; } }