@Override public void setTtl(long ttl) { if (_header == null) { if (ttl != 0l) { _header = new Header(); } else { return; } } _header.setTtl(UnsignedInteger.valueOf(ttl)); }
@Override public void setTtl(long ttl) { if (_header == null) { if (ttl != 0l) { _header = new Header(); } else { return; } } _header.setTtl(UnsignedInteger.valueOf(ttl)); }
@Override public void setTtl(long ttl) { if (_header == null) { if (ttl != 0l) { _header = new Header(); } else { return; } } _header.setTtl(UnsignedInteger.valueOf(ttl)); }
@Override public void setTtl(long ttl) { if (_header == null) { if (ttl != 0l) { _header = new Header(); } else { return; } } _header.setTtl(UnsignedInteger.valueOf(ttl)); }
public Header newInstance(Object described) { List l = (List) described; Header o = new Header(); switch(5 - l.size()) { case 0: o.setDeliveryCount( (UnsignedInteger) l.get( 4 ) ); case 1: o.setFirstAcquirer( (Boolean) l.get( 3 ) ); case 2: o.setTtl( (UnsignedInteger) l.get( 2 ) ); case 3: o.setPriority( (UnsignedByte) l.get( 1 ) ); case 4: o.setDurable( (Boolean) l.get( 0 ) ); } return o; }
public Header newInstance(Object described) { List l = (List) described; Header o = new Header(); switch(5 - l.size()) { case 0: o.setDeliveryCount( (UnsignedInteger) l.get( 4 ) ); case 1: o.setFirstAcquirer( (Boolean) l.get( 3 ) ); case 2: o.setTtl( (UnsignedInteger) l.get( 2 ) ); case 3: o.setPriority( (UnsignedByte) l.get( 1 ) ); case 4: o.setDurable( (Boolean) l.get( 0 ) ); } return o; }
public Header newInstance(Object described) { List l = (List) described; Header o = new Header(); switch(5 - l.size()) { case 0: o.setDeliveryCount( (UnsignedInteger) l.get( 4 ) ); case 1: o.setFirstAcquirer( (Boolean) l.get( 3 ) ); case 2: o.setTtl( (UnsignedInteger) l.get( 2 ) ); case 3: o.setPriority( (UnsignedByte) l.get( 1 ) ); case 4: o.setDurable( (Boolean) l.get( 0 ) ); } return o; }
public Header newInstance(Object described) { List l = (List) described; Header o = new Header(); switch(5 - l.size()) { case 0: o.setDeliveryCount( (UnsignedInteger) l.get( 4 ) ); case 1: o.setFirstAcquirer( (Boolean) l.get( 3 ) ); case 2: o.setTtl( (UnsignedInteger) l.get( 2 ) ); case 3: o.setPriority( (UnsignedByte) l.get( 1 ) ); case 4: o.setDurable( (Boolean) l.get( 0 ) ); } return o; }
@Override public AMQPMessage setExpiration(long expiration) { if (properties != null) { if (expiration <= 0) { properties.setAbsoluteExpiryTime(null); } else { properties.setAbsoluteExpiryTime(new Date(expiration)); } } else if (expiration > 0) { properties = new Properties(); properties.setAbsoluteExpiryTime(new Date(expiration)); } // We are overriding expiration with an Absolute expiration time so any // previous Header based TTL also needs to be removed. if (header != null) { header.setTtl(null); } this.expiration = Math.max(0, expiration); return this; }
public Header getHeader() { Header result = null; if (!isDefault()) { result = new Header(); result.setDurable(durable); result.setPriority(priority); result.setFirstAcquirer(firstAcquirer); result.setTtl(timeToLive); result.setDeliveryCount(deliveryCount); } return result; }
public Header getHeader() { Header result = null; if (!isDefault()) { result = new Header(); result.setDurable(durable); result.setPriority(priority); result.setFirstAcquirer(firstAcquirer); result.setTtl(timeToLive); result.setDeliveryCount(deliveryCount); } return result; }
ttl = 1; header.setTtl(new UnsignedInteger((int)ttl));
header = new Header(); header.setTtl(new UnsignedInteger((int) ttl));
header = new Header(); header.setTtl(new UnsignedInteger((int) ttl));
header = new Header(); header.setTtl(new UnsignedInteger((int) ttl));
header = new Header(); header.setTtl(new UnsignedInteger((int) ttl));
break; case 2: header.setTtl(decoder.readUnsignedInteger(null)); break; case 3: