/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
/** Return the "name" of the timestamp. This can be used * to associate unique identifier with each timestamped object. * The name is a MessageBytes - i.e. a modifiable byte[] or char[]. */ public MessageBytes getName() { if( name==null ) name=MessageBytes.newInstance();//lazy return name; }
public DispatchData() { uriMB = MessageBytes.newInstance(); CharChunk uriCC = uriMB.getCharChunk(); uriCC.setLimit(-1); mappingData = new MappingData(); } }
private HttpServletMapping computeNamedDispatchHttpServletMapping(Context context, HttpServletRequest hcurrent) { HttpServletMapping result = null; Mapper mapper = context.getMapper(); if (null == mapper) { return null; } MessageBytes uriMB = MessageBytes.newInstance(); CharChunk cc = uriMB.getCharChunk(); MappingData mappingData = new MappingData(); String requestURI = hcurrent.getRequestURI(); if (null == requestURI) { return null; } try { cc.append(requestURI, 0, requestURI.length()); mapper.map(uriMB, mappingData); } catch (Exception ex) { return null; } result = new MappingImpl(mappingData); return result; }
MessageBytes uriMB = MessageBytes.newInstance(); CharChunk uriCC = uriMB.getCharChunk(); uriCC.setLimit(-1);