protected void setOptimizeAcknowledge(boolean value) { if (optimizeAcknowledge && !value) { deliverAcks(); } optimizeAcknowledge = value; }
void deliverAcks() { for (Iterator<ActiveMQMessageConsumer> iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.deliverAcks(); } }
protected void setPrefetchSize(int prefetch) { deliverAcks(); this.info.setCurrentPrefetchSize(prefetch); }
@Override public void run() { try { if (optimizeAcknowledge && !unconsumedMessages.isClosed()) { LOG.info("Consumer:{} is performing scheduled delivery of outstanding optimized Acks", info.getConsumerId()); deliverAcks(); } } catch (Exception e) { LOG.debug("Optimized Ack Task caught exception during ack", e); } } };
deliverAcks(); if (isAutoAcknowledgeBatch()) { acknowledge();
protected void setOptimizeAcknowledge(boolean value) { if (optimizeAcknowledge && !value) { deliverAcks(); } optimizeAcknowledge = value; }
protected void setOptimizeAcknowledge(boolean value) { if (optimizeAcknowledge && !value) { deliverAcks(); } optimizeAcknowledge = value; }
protected void setOptimizeAcknowledge(boolean value) { if (optimizeAcknowledge && !value) { deliverAcks(); } optimizeAcknowledge = value; }
protected void setOptimizeAcknowledge(boolean value) { if (optimizeAcknowledge && !value) { deliverAcks(); } optimizeAcknowledge = value; }
void deliverAcks() { for (Iterator<ActiveMQMessageConsumer> iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.deliverAcks(); } }
protected void setPrefetchSize(int prefetch) { deliverAcks(); this.info.setCurrentPrefetchSize(prefetch); }
void deliverAcks() { for (Iterator<ActiveMQMessageConsumer> iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.deliverAcks(); } }
void deliverAcks() { for (Iterator<ActiveMQMessageConsumer> iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.deliverAcks(); } }
void deliverAcks() { for (Iterator<ActiveMQMessageConsumer> iter = consumers.iterator(); iter.hasNext();) { ActiveMQMessageConsumer consumer = iter.next(); consumer.deliverAcks(); } }
protected void setPrefetchSize(int prefetch) { deliverAcks(); this.info.setCurrentPrefetchSize(prefetch); }
protected void setPrefetchSize(int prefetch) { deliverAcks(); this.info.setCurrentPrefetchSize(prefetch); }
protected void setPrefetchSize(int prefetch) { deliverAcks(); this.info.setCurrentPrefetchSize(prefetch); }
@Override public void run() { try { if (optimizeAcknowledge && !unconsumedMessages.isClosed()) { LOG.info("Consumer:{} is performing scheduled delivery of outstanding optimized Acks", info.getConsumerId()); deliverAcks(); } } catch (Exception e) { LOG.debug("Optimized Ack Task caught exception during ack", e); } } };
@Override public void run() { try { if (optimizeAcknowledge && !unconsumedMessages.isClosed()) { LOG.info("Consumer:{} is performing scheduled delivery of outstanding optimized Acks", info.getConsumerId()); deliverAcks(); } } catch (Exception e) { LOG.debug("Optimized Ack Task caught exception during ack", e); } } };
@Override public void run() { try { if (optimizeAcknowledge && !unconsumedMessages.isClosed()) { LOG.info("Consumer:{} is performing scheduled delivery of outstanding optimized Acks", info.getConsumerId()); deliverAcks(); } } catch (Exception e) { LOG.debug("Optimized Ack Task caught exception during ack", e); } } };