"Thirty-Seven","Thirty-Eight","Thirty-Nine"}; ObjectArray m_ObjectArray = new ObjectArray(); String s = (String) m_ObjectArray.getAt(x); System.out.println(s); System.out.println((String) m_ObjectArray.getAt(5)); System.out.println((String) m_ObjectArray.getAt(10)); System.out.println((String) m_ObjectArray.getAt(20)); System.out.println((String) m_ObjectArray.getAt(2)); System.out.println((String) m_ObjectArray.getAt(15)); System.out.println((String) m_ObjectArray.getAt(30)); System.out.println((String) m_ObjectArray.getAt(6)); System.out.println((String) m_ObjectArray.getAt(8)); System.out.println((String) m_ObjectArray.getAt(40));
/** * A common routine that allocates an Object from the Object Array. * One of the common bugs in this code was to allocate an Object and * not incerment m_size, using this method will assure that function. * @param o * */ private int allocateNodeObject( Object o ) { // Need to keep this counter going even if we don't use it. m_size++; return m_ObjectArray.append(o); }
/** */ public ObjectArray( ) { // // Default constructor will work with a minimal fixed size // init(10); }
/** * @param parm1 * */ public String getNodeValue( int parm1 ) { if (DEBUG) System.out.println("getNodeValue(" + parm1 + ")"); try { Object o = m_ObjectArray.getAt(makeNodeIdentity(parm1)); if (o != null && o != S_ELEMENT_NODE) { return o.toString(); } else { return ""; } } catch(Exception e) { error("Getting String Value"); return null; } }
m_ObjectArray.setAt(dataIdent, o);
Object o = m_ObjectArray.getAt(child); if ( o == S_ELEMENT_NODE ) getNodeData(child, buf);
m_ObjectArray.setAt(dataIdent, o);
"Thirty-Seven","Thirty-Eight","Thirty-Nine"}; ObjectArray m_ObjectArray = new ObjectArray(); String s = (String) m_ObjectArray.getAt(x); System.out.println(s); System.out.println((String) m_ObjectArray.getAt(5)); System.out.println((String) m_ObjectArray.getAt(10)); System.out.println((String) m_ObjectArray.getAt(20)); System.out.println((String) m_ObjectArray.getAt(2)); System.out.println((String) m_ObjectArray.getAt(15)); System.out.println((String) m_ObjectArray.getAt(30)); System.out.println((String) m_ObjectArray.getAt(6)); System.out.println((String) m_ObjectArray.getAt(8)); System.out.println((String) m_ObjectArray.getAt(40));
if (DEBUG) System.out.println("getStringValue(" + nodeIdx + ")"); Object o = m_ObjectArray.getAt(nodeIdx); if ( o == S_ELEMENT_NODE )
/** * @param minArraySize The size of the Arrays stored in the Vector */ public ObjectArray( final int minArraySize ) { init(minArraySize); }
/** * A common routine that allocates an Object from the Object Array. * One of the common bugs in this code was to allocate an Object and * not incerment m_size, using this method will assure that function. * @param o * */ private int allocateNodeObject( Object o ) { // Need to keep this counter going even if we don't use it. m_size++; return m_ObjectArray.append(o); }
m_ObjectArray.setAt(dataIdent, o);
"Thirty-Seven","Thirty-Eight","Thirty-Nine"}; ObjectArray m_ObjectArray = new ObjectArray(); String s = (String) m_ObjectArray.getAt(x); System.out.println(s); System.out.println((String) m_ObjectArray.getAt(5)); System.out.println((String) m_ObjectArray.getAt(10)); System.out.println((String) m_ObjectArray.getAt(20)); System.out.println((String) m_ObjectArray.getAt(2)); System.out.println((String) m_ObjectArray.getAt(15)); System.out.println((String) m_ObjectArray.getAt(30)); System.out.println((String) m_ObjectArray.getAt(6)); System.out.println((String) m_ObjectArray.getAt(8)); System.out.println((String) m_ObjectArray.getAt(40));
/** * @param parm1 * */ public String getNodeValue( int parm1 ) { if (DEBUG) System.out.println("getNodeValue(" + parm1 + ")"); try { Object o = m_ObjectArray.getAt(makeNodeIdentity(parm1)); if (o != null && o != S_ELEMENT_NODE) { return o.toString(); } else { return ""; } } catch(Exception e) { error("Getting String Value"); return null; } }
/** */ public ObjectArray( ) { // // Default constructor will work with a minimal fixed size // init(10); }
/** * A common routine that allocates an Object from the Object Array. * One of the common bugs in this code was to allocate an Object and * not incerment m_size, using this method will assure that function. * @param o * */ private int allocateNodeObject( Object o ) { // Need to keep this counter going even if we don't use it. m_size++; return m_ObjectArray.append(o); }
m_ObjectArray.setAt(dataIdent, o);
"Thirty-Seven","Thirty-Eight","Thirty-Nine"}; ObjectArray m_ObjectArray = new ObjectArray(); String s = (String) m_ObjectArray.getAt(x); System.out.println(s); System.out.println((String) m_ObjectArray.getAt(5)); System.out.println((String) m_ObjectArray.getAt(10)); System.out.println((String) m_ObjectArray.getAt(20)); System.out.println((String) m_ObjectArray.getAt(2)); System.out.println((String) m_ObjectArray.getAt(15)); System.out.println((String) m_ObjectArray.getAt(30)); System.out.println((String) m_ObjectArray.getAt(6)); System.out.println((String) m_ObjectArray.getAt(8)); System.out.println((String) m_ObjectArray.getAt(40));
/** * @param parm1 * */ public String getNodeValue( int parm1 ) { if (DEBUG) System.out.println("getNodeValue(" + parm1 + ")"); try { Object o = m_ObjectArray.getAt(makeNodeIdentity(parm1)); if (o != null && o != S_ELEMENT_NODE) { return o.toString(); } else { return ""; } } catch(Exception e) { error("Getting String Value"); return null; } }
/** */ public ObjectArray( ) { // // Default constructor will work with a minimal fixed size // init(10); }