// Takes and image_id, pulls in the image from cache, and goes about
// encoding it to put it into the database in a transaction. The last
// query in the transaction records the image having been stored.
protected void storeImage(int image_id) throws Exception {
PhotoImage p = new PhotoImage(image_id);
SpyDB pdb = getDB();
Connection db = null;
Statement st = null;
Vector v = p.getImage();
System.err.println(
"Storer: Got image for " + image_id + " " + v.size() + " lines of data to store.");
try {
int i = 0, n = 0;
db = pdb.getConn();
db.setAutoCommit(false);
st = db.createStatement();
BASE64Encoder base64 = new BASE64Encoder();
String data = "";
for (; i < v.size(); i++) {
String tmp = base64.encodeBuffer((byte[]) v.elementAt(i));
tmp = tmp.trim();
if (data.length() < 2048) {
data += tmp + "\n";
} else {
storeQuery(image_id, n, st, data);
data = tmp;
n++;
}
}
// OK, this is sick, but another one right now for the spare.
if (data.length() > 0) {
System.err.println("Storer: Storing spare.");
storeQuery(image_id, n, st, data);
n++;
}
System.err.println("Storer: Stored " + n + " lines of data for " + image_id + ".");
st.executeUpdate(
"update upload_log set stored=datetime(now())\n" + "\twhere photo_id = " + image_id);
db.commit();
// Go ahead and generate a thumbnail.
p.getThumbnail();
} catch (Exception e) {
// If anything happens, roll it back.
if (st != null) {
try {
db.rollback();
} catch (Exception e3) {
// Nothing
}
}
} finally {
if (db != null) {
try {
db.setAutoCommit(true);
} catch (Exception e) {
System.err.println("Error: " + e);
}
}
pdb.freeDBConn();
}
}
/**
* Event.detail line start offset (input) Event.text line text (input) LineStyleEvent.styles
* Enumeration of StyleRanges, need to be in order. (output) LineStyleEvent.background line
* background color (output)
*/
public void lineGetStyle(LineStyleEvent event) {
Vector styles = new Vector();
int token;
StyleRange lastStyle;
// If the line is part of a block comment, create one style for the entire line.
if (inBlockComment(event.lineOffset, event.lineOffset + event.lineText.length())) {
styles.addElement(
new StyleRange(event.lineOffset, event.lineText.length(), getColor(COMMENT), null));
event.styles = new StyleRange[styles.size()];
styles.copyInto(event.styles);
return;
}
Color defaultFgColor = ((Control) event.widget).getForeground();
scanner.setRange(event.lineText);
token = scanner.nextToken();
while (token != EOF) {
if (token == OTHER) {
// do nothing for non-colored tokens
} else if (token != WHITE) {
Color color = getColor(token);
// Only create a style if the token color is different than the
// widget's default foreground color and the token's style is not
// bold. Keywords are bolded.
if ((!color.equals(defaultFgColor)) || (token == KEY)) {
StyleRange style =
new StyleRange(
scanner.getStartOffset() + event.lineOffset, scanner.getLength(), color, null);
if (token == KEY) {
style.fontStyle = SWT.BOLD;
}
if (styles.isEmpty()) {
styles.addElement(style);
} else {
// Merge similar styles. Doing so will improve performance.
lastStyle = (StyleRange) styles.lastElement();
if (lastStyle.similarTo(style) && (lastStyle.start + lastStyle.length == style.start)) {
lastStyle.length += style.length;
} else {
styles.addElement(style);
}
}
}
} else if ((!styles.isEmpty())
&& ((lastStyle = (StyleRange) styles.lastElement()).fontStyle == SWT.BOLD)) {
int start = scanner.getStartOffset() + event.lineOffset;
lastStyle = (StyleRange) styles.lastElement();
// A font style of SWT.BOLD implies that the last style
// represents a java keyword.
if (lastStyle.start + lastStyle.length == start) {
// Have the white space take on the style before it to
// minimize the number of style ranges created and the
// number of font style changes during rendering.
lastStyle.length += scanner.getLength();
}
}
token = scanner.nextToken();
}
event.styles = new StyleRange[styles.size()];
styles.copyInto(event.styles);
}
public ViewComponentInfo projectAbsoluteCoordinateRecursively(Integer ix, Integer iy) {
// Miss
if (!checkHit(ix, iy)) return null;
if (this.viewType.endsWith("Spinner")) {
this.isSpinner = true;
return this;
}
// I'm hit and has child.
if (this.children != null) {
// Assumption : children never intersect
ViewComponentInfo projected_child;
if (this.isContainer || this.viewType.equals("android.widget.TabWidget")) {
Vector<ViewComponentInfo> views = new Vector<ViewComponentInfo>();
for (ViewComponentInfo child : children) {
if (child.checkHit(ix, iy)) {
child.isCollectionMember = true;
views.add(child);
}
}
if (views.size() == 1) {
return views.firstElement();
}
}
if (this.viewType.endsWith(("FrameLayout"))) {
LinkedList<ViewComponentInfo> chlist = new LinkedList<ViewComponentInfo>(children);
ViewComponentInfo child = getFrameContent(children);
projected_child = child.projectAbsoluteCoordinateRecursively(ix, iy);
if (projected_child != null) return projected_child;
} else {
Vector<ViewComponentInfo> views = new Vector<ViewComponentInfo>();
for (ViewComponentInfo child : children) {
projected_child = child.projectAbsoluteCoordinateRecursively(ix, iy);
if (projected_child != null) views.add(projected_child);
}
if (views.size() == 1) {
return views.firstElement();
}
}
}
// The point hit no child.
// Thus return my self.
if (this.viewType.endsWith("Layout")
|| this.viewType.endsWith("TextView")
|| this.viewType.endsWith("ScrollView")
|| this.viewType.endsWith("ViewStub")
|| this.viewType.endsWith("DialogTitle")
|| this.viewType.endsWith("ImageView")) {
if (this.hasOnClickListener()) return this;
else return null;
}
return this;
}
/**
* Constructs a <code>VariabilityRecordTable</code> with a list of variability records.
*
* @param record_list the list of variability records.
* @param desktop the parent desktop.
*/
public VariabilityRecordTable(Vector record_list, net.aerith.misao.gui.Desktop desktop) {
this.record_list = record_list;
this.desktop = desktop;
index = new ArrayIndex(record_list.size());
model = new DefaultTableModel(column_names, 0);
Object[] objects = new Object[column_names.length];
objects[0] = new Boolean(true);
for (int i = 1; i < column_names.length; i++) objects[i] = "";
for (int i = 0; i < record_list.size(); i++) model.addRow(objects);
setModel(model);
column_model = (DefaultTableColumnModel) getColumnModel();
for (int i = 1; i < column_names.length; i++)
column_model
.getColumn(i)
.setCellRenderer(
new StringRenderer(column_names[i], LabelTableCellRenderer.MODE_MULTIPLE_SELECTION));
initializeCheckColumn();
setTableHeader(new TableHeader(column_model));
setAutoResizeMode(JTable.AUTO_RESIZE_OFF);
initializeColumnWidth();
pane = this;
initPopupMenu();
}
/** Get row count (part of table model interface) */
public int getRowCount() {
int count = data.size();
if (filter_data != null) {
count = filter_data.size();
}
return count;
}
public boolean checkEvents(BundleEvent[] expevents) {
boolean res = true;
for (int i = 0; i < 20; i++) {
try {
Thread.sleep(100);
} catch (InterruptedException ignore) {
}
if (events.size() == expevents.length) {
break;
}
}
if (events.size() == expevents.length) {
for (int i = 0; i < events.size(); i++) {
BundleEvent be = (BundleEvent) events.elementAt(i);
if (!(be.getBundle().equals(expevents[i].getBundle())
&& be.getType() == expevents[i].getType())) {
res = false;
}
}
} else {
res = false;
}
if (!res) {
out.println("Real events");
for (int i = 0; i < events.size(); i++) {
BundleEvent be = (BundleEvent) events.elementAt(i);
out.println("Event " + be.getBundle() + ", Type " + be.getType());
}
out.println("Expected events");
for (int i = 0; i < expevents.length; i++) {
out.println("Event " + expevents[i].getBundle() + ", Type " + expevents[i].getType());
}
}
return res;
}
public Matrix matrix(boolean centered) {
String[] genes = genes();
Matrix matrix = new Matrix(genes.length, coefs.size());
for (int j = 0; j < coefs.size(); j++) {
Map<String, Double> values = coefs.get(j).geneValues(args.compare);
double sum = 0.0;
for (int i = 0; i < genes.length; i++) {
Double value = values.get(genes[i]);
if (value != null) {
matrix.set(i, j, value);
sum += value;
} else {
matrix.set(i, j, 0.0);
}
}
if (centered) {
sum /= (double) genes.length;
for (int i = 0; i < genes.length; i++) {
matrix.set(i, j, matrix.get(i, j) - sum);
}
}
}
return matrix;
}
public void normalize() {
for (int i = 0; i < samples.size(); i++) {
TreeSet<Column.Entry> entries = new TreeSet<Column.Entry>();
for (int j = 0; j < cols.size(); j++) {
Column c = cols.get(j);
if (c.values.get(i) != null) {
entries.add(c.entry(i));
}
}
int ns = entries.size();
int j = 0;
for (Column.Entry e : entries) {
int cidx = ids.get(e.id());
float ff = (float) j / (float) ns;
cols.get(cidx).values.set(i, ff);
}
if (i > 0) {
if (i % 100 == 0) {
System.out.print(".");
System.out.flush();
}
}
}
System.out.println();
}
void tagV(String name, Vector attrs) {
String s[] = new String[attrs.size()];
for (int i = 0; i < attrs.size(); i++) {
s[i] = (String) attrs.elementAt(i);
}
startTagPrim(name, s, true);
}
/**
* Is used to remember the order of variables so that the message returned to the OA does not
* contain randomly ordered data.
*
* @param message The RuleML message
* @return An array containing the order of the variables.
*/
public static String[] getVariableOrder(String message) {
Vector<String> variables = new Vector<String>();
String[] variableList;
// Break string up
StringTokenizer st = new StringTokenizer(message, "<");
String temp = ""; // Temporary storage
String tempVar = ""; // Temporary variable storage
// While information remains
while (st.hasMoreTokens()) {
temp = st.nextToken();
// If it is a variable
if (temp.startsWith("Var>")) {
tempVar = "";
// Get the name of the variable
for (int i = 4; i < temp.length(); i++) {
if (temp.charAt(i) == '<') break;
else tempVar = tempVar + temp.charAt(i);
}
variables.addElement(tempVar); // Store the variable name
}
}
// Convert the vector to an array
variableList = new String[variables.size()];
for (int i = 0; i < variables.size(); i++) {
variableList[i] = variables.elementAt(i);
}
return variableList;
}
/**
* Gets the urlClassLoader that enables to access to the objects jar files.
*
* @return an URLClassLoader
*/
public URLClassLoader getObjectsClassLoader() {
if (objectsClassLoader == null) {
try {
if (isExecutionMode()) {
URL[] listUrl = new URL[1];
listUrl[0] = instance.getTangaraPath().toURI().toURL();
objectsClassLoader = new URLClassLoader(listUrl);
} else {
File f = new File(instance.getTangaraPath().getParentFile(), "objects");
File[] list = f.listFiles();
Vector<URL> vector = new Vector<URL>();
for (int i = 0; i < list.length; i++) {
if (list[i].getName().endsWith(".jar")) vector.add(list[i].toURI().toURL());
}
File flib =
new File(
instance.getTangaraPath().getParentFile().getAbsolutePath().replace("\\", "/")
+ "/objects/lib");
File[] listflib = flib.listFiles();
for (int j = 0; j < listflib.length; j++) {
if (listflib[j].getName().endsWith(".jar")) vector.add(listflib[j].toURI().toURL());
}
URL[] listUrl = new URL[vector.size()];
for (int j = 0; j < vector.size(); j++) listUrl[j] = vector.get(j);
objectsClassLoader = new URLClassLoader(listUrl);
}
} catch (Exception e1) {
displayError("URL MAL FORMED " + e1);
return null;
}
}
return objectsClassLoader;
}
public IrepLocSegs FindSegment(Vector<IrepConstRange> segs, boolean msf) {
Integer hash_nr = new Integer(segs.size());
SegEntry entry = null;
IrepLocSegs loc_segs;
int i = 0;
entry = (SegEntry) _segList.get(hash_nr);
if (entry == null) {
entry = new SegEntry(segs.size());
_segList.put(hash_nr, entry);
}
for (i = 0; i < entry._segs.size(); i++) {
loc_segs = (IrepLocSegs) entry._segs.get(i);
if (loc_segs._msf == msf && loc_segs._segs.equals(segs)) {
return loc_segs;
}
}
loc_segs = new IrepLocSegs(segs, msf);
loc_segs._index = entry._segs.size();
entry._segs.add(loc_segs);
return loc_segs;
}
/** Tail-recursive algorithm to generate all factory signatures */
private static void makeFactoryNames(
String prefix, Vector arguments, int startIndex, Vector results) {
// if startIndex == arguments.size, then simply add the prefix to the results
if (startIndex == arguments.size()) {
if (s_allFactorySignatures.contains(prefix))
throw new RuntimeException(
"Constructor signature collision detected: Factory already registered with prefix "
+ prefix);
results.add(prefix);
assert (DebugMsg.debugMsg("ClassWriter", "makeFactoryNames:adding:" + prefix));
s_allFactorySignatures.add(prefix);
return;
}
// Otherwise, iterate over each element of arguments, and call recursively with adjusted input
Vector currentAlternates = (Vector) arguments.elementAt(startIndex);
for (int i = 0; i < currentAlternates.size(); i++) {
makeFactoryNames(
prefix + ":" + (String) currentAlternates.elementAt(i),
arguments,
startIndex + 1,
results);
}
}
private void doSave() {
ObjectOutputStream objectStream = getObjectOutputStream();
if (objectStream != null) {
try {
System.out.println("Saving " + selectedChildrenPaths.size() + " Selected Generations...");
for (int i = 0; i < selectedChildrenPaths.size(); i++) {
// Get the userObject at the supplied path
Object selectedPath =
((TreePath) selectedChildrenPaths.elementAt(i)).getLastPathComponent();
DefaultMutableTreeNode selectedNode = (DefaultMutableTreeNode) selectedPath;
objectStream.writeObject(selectedNode.getUserObject());
}
objectStream.close();
System.out.println("Save completed successfully.");
} catch (IOException e) {
System.err.println(e);
}
} else {
System.out.println("Save Selected Files has been aborted!");
}
}
public void save(File f) throws IOException {
PrintStream ps = new PrintStream(new FileOutputStream(f));
String[] genes = genes();
Vector<Map<String, Double>> maps = new Vector<Map<String, Double>>();
for (int j = 0; j < coefs.size(); j++) {
maps.add(coefs.get(j).geneValues(args.compare));
}
ps.print("gene");
for (int i = 0; i < coefs.size(); i++) {
ps.print(" " + keys.get(i));
}
ps.println();
for (int i = 0; i < genes.length; i++) {
ps.print(String.format("%s", genes[i]));
for (int j = 0; j < coefs.size(); j++) {
Map<String, Double> map = maps.get(j);
Double value = map.containsKey(genes[i]) ? map.get(genes[i]) : null;
ps.print(String.format(" %s", value != null ? String.format("%.2f", value) : "N/A"));
}
ps.println();
}
ps.println();
ps.close();
}
public void saveFile(File f) throws IOException {
PrintStream ps = new PrintStream(new FileOutputStream(f));
ps.print("ID");
for (Column c : cols) {
ps.print(String.format("\t%s", c.id));
}
ps.println();
for (int i = 0; i < samples.size(); i++) {
ps.print(samples.get(i));
for (int j = 0; j < cols.size(); j++) {
Float ff = cols.get(j).values.get(i);
if (ff == null) {
ps.print("\tnull");
} else {
ps.print(String.format("\t%.2f", ff));
}
}
ps.println();
if (i > 0) {
if (i % 100 == 0) {
System.out.print(".");
System.out.flush();
}
}
}
System.out.println();
ps.close();
}
/**
* @param j The ungapped index into the multiple alignment.
* @return An array of characters, corresponding to a particular column from the multiple
* alignment.
*/
public char[] alignedChars(int j) {
char[] array = new char[ordering.size()];
for (int i = 0; i < ordering.size(); i++) {
String species = ordering.get(i);
array[i] = gappedAlignments.get(species).gappedChar(j);
}
return array;
}
public Tuple[] rdgp(Tuple template) {
Vector matchingTuples = new Vector();
for (int i = 0; i < ts.size(); i++) {
Tuple tuple = (Tuple) ts.get(i);
if (template.matches(tuple)) matchingTuples.add(tuple);
}
if (matchingTuples.size() == 0) return null;
return (Tuple[]) matchingTuples.toArray(new Tuple[0]);
}
void write(ClassEnv e, CodeAttr ce, DataOutputStream out) throws IOException, jasError {
out.writeShort(e.getCPIndex(attr));
out.writeInt(2 + 10 * (vars.size()));
out.writeShort(vars.size());
for (Enumeration en = vars.elements(); en.hasMoreElements(); ) {
LocalVarEntry lv = (LocalVarEntry) (en.nextElement());
lv.write(e, ce, out);
}
}
/**
* This function returns a map whose entries hold the coordinates of the sequence as keys and the
* coordinates of the target sequences as values.</br> If a coordinate in sequence corresponds to
* a gap in another sequence, then -1 is assigned to that position.</br> For example suppose we
* have the sequences:</br> seq1: AAT-GCT-TCG</br> seq2: G--C-CTCT-C</br> seq3: A-T--GT-AG-</br>
* Then, if we wish to find the mapping of seq1's coordinates to seq2's coordinates, this will
* give us: 0 -> 0, 1 -> -1, 2 -> -1, 3 -> -1, 4 -> 2, 5 -> 3, 6 -> 5, 7 -> -1, 8 -> 6.</br> Also,
* if we wish to find the mapping of seq1's coordinates to seq2's and seq3's coordinates, this
* will give us: 0 -> {0, 0}, 1 -> {-1, -1}, 2 -> {-1, 1}, 3 -> {-1, -1}, 4 -> {2, 2}, 5 -> {3,
* 3}, 6 -> {5, 4}, 7 -> {-1, 5}, 8 -> {6, -1}.
*
* @param <T> This could be either the serial number of the sequence (valid range: [0,
* sequences.length-1]) or the sequence names
* @param <E>
* @param seqID The sequence ID (either serial number or name) which we wish to map</br> Note that
* the valid range of serial numbers is [0, sequences.length-1]
* @param targetSeqIDs The (target) sequences IDs (either serial numbers or names)
* @return A map whose keys are the sequence coordinates and values the corresponding coordinates
* of the target sequences
* @throws IllegalArgumentException
* @see GappedAlignmentString
*/
public <T extends Object> Map mapSeqCoords2SeqsCoords(
T generic_seqID, Vector<T> generic_targetSeqIDs)
throws IllegalArgumentException, IndexOutOfBoundsException {
GappedAlignmentString gas_seq;
GappedAlignmentString[] gas_targetSeqs;
String[] speciesNames = species();
// Check if generic_seqID is mistakenly included in the generic_targetSeqIDs set
if (generic_targetSeqIDs.contains(generic_seqID)) generic_targetSeqIDs.remove(generic_seqID);
if (generic_targetSeqIDs.size() + 1 > speciesNames.length)
throw new IndexOutOfBoundsException("You entered more sequences than are in the file.");
Map map = new HashMap();
// Check whether sequence IDs are inputed as serial numbers or as names
String seqsClassName = generic_seqID.getClass().getSimpleName();
// if( generic_seqID.getClass() instanceof java.lang.Integer )
// System.out.println("XAXA");
if (seqsClassName.equals("Integer")) {
Integer seqID = (Integer) generic_seqID;
Integer[] seqIDs = generic_targetSeqIDs.toArray(new Integer[generic_targetSeqIDs.size()]);
if ((StatUtil.findMax(seqIDs).getFirst() > speciesNames.length - 1)
|| (StatUtil.findMin(seqIDs).getFirst() < 0))
throw new IndexOutOfBoundsException(
"The sequence IDs (aka, serial numbers have to lie inside"
+ " the range 0 to speciesNames.length -1");
gas_seq = getGappedAlignment(speciesNames[seqID]);
gas_targetSeqs = new GappedAlignmentString[seqIDs.length];
for (int i = 0; i < seqIDs.length; i++)
gas_targetSeqs[i] = getGappedAlignment(speciesNames[seqIDs[i]]);
} else if (seqsClassName.equals("String")) {
String seqID = (String) generic_seqID;
String[] seqIDs = generic_targetSeqIDs.toArray(new String[generic_targetSeqIDs.size()]);
gas_seq = getGappedAlignment(seqID);
gas_targetSeqs = new GappedAlignmentString[seqIDs.length];
for (int i = 0; i < seqIDs.length; i++) gas_targetSeqs[i] = getGappedAlignment(seqIDs[i]);
} else {
throw new IllegalArgumentException("Sequence IDs should be either of type Integer or String");
}
// Pairwise Alignment
if (gas_targetSeqs.length == 1) {
map = doMapSeq2Seq(gas_seq, gas_targetSeqs);
}
// Multiple Alignment
else {
map = doMapSeq2Seqs(gas_seq, gas_targetSeqs);
}
return map;
} // end of mapSeqCoords2SeqsCoords method
public static void generate(String argv[]) throws SilentExit {
Vector files = parseOptions(argv);
if (files.size() > 0) {
for (int i = 0; i < files.size(); i++) generate((File) files.elementAt(i));
} else {
new MainFrame();
}
}
public XmlUIElement getXmlElement(UserInput uiArg) {
String type = "textfield";
Qualifier qual = uiArg.getQualifier();
String enumNames[] = null;
String enumValues[] = null;
if (qual != null) {
type = qual.getType();
Vector enumVec = qual.getEnums();
if (enumVec.size() > 0) {
enumNames = new String[enumVec.size()];
enumValues = new String[enumVec.size()];
for (int i = 0; i < enumNames.length; i++) {
com.adventnet.management.config.xml.Enum e =
(com.adventnet.management.config.xml.Enum) enumVec.elementAt(i);
enumNames[i] = e.getName();
enumValues[i] = e.getValue();
if (enumNames[i] == null) {
enumNames[i] = enumValues[i];
}
}
}
}
XmlUIElement el = getXmlUIElementFor(type);
if (el == null) {
return null;
}
el.setDescription(uiArg.getDescription());
if (enumNames != null) {
el.setEnumeratedValues(enumNames, enumValues);
}
if ((qual != null) && (qual.getRange() != null) && (!(qual.getRange().equals("")))) {
el.setRange(qual.getRange());
}
if (uiArg.getDefaultValue() != null) {
el.setValue(uiArg.getDefaultValue());
}
String isEditable = uiArg.getAttribute("editable");
if (isEditable != null) {
if (isEditable.trim().equals("false")) {
el.setEditable(false);
} else {
el.setEditable(true);
}
}
String required = uiArg.getAttribute("required");
{
if (required.trim().equals("true")) {
el.setRequired(true);
numberOfRequiredFields++;
} else {
el.setRequired(false);
}
}
el.setLabelName(uiArg.getLabel());
return el;
}
public void outputBinary(DataOutputStream dos) throws IOException {
dos.writeInt(samples.size());
for (String s : samples) {
dos.writeUTF(s);
}
dos.writeInt(cols.size());
for (Column c : cols) {
c.outputBinary(dos);
}
}
static Visual[] getTrueColor16(Client c) {
Vector vec = new Vector();
vec.addElement(new Visual(Resource.fakeClientId(c), 4, 6, 64, 0xf800, 0x7e0, 0x1f));
Visual[] v = new Visual[vec.size()];
for (int i = 0; i < vec.size(); i++) {
v[i] = (Visual) vec.elementAt(i);
}
vec.removeAllElements();
return v;
}
public Vector<String> getUserNames() {
int i;
Vector<String> names = new Vector<String>(connections.size());
for (i = 0; i < connections.size(); i++) {
names.addElement((String) connections.elementAt(i).nickname);
}
return names;
}
static Visual[] getPseudoColor8(Client c) {
Vector vec = new Vector();
vec.addElement(new Visual(Resource.fakeClientId(c), 3, 6, 256, 0, 0, 0));
Visual[] v = new Visual[vec.size()];
for (int i = 0; i < vec.size(); i++) {
v[i] = (Visual) vec.elementAt(i);
}
vec.removeAllElements();
return v;
}
/**
* This Method returns the 2D Array which is the list of the Items for the selected WorkOrder of
* the Customer.
*
* @param workorderId - WorkOrder Id Foreign Key of WRK_ORDR_DETS table
* @return Object[][] - 2D Array which is List of the Items for the WorkOrder
*/
public Object[][] getWorkOrderItems(long workorderId) throws RemoteException {
WrkOrdrDets wrkordrdts_obj = new WrkOrdrDets(conn);
RHCCBlgKeys blgkeys_obj = new RHCCBlgKeys(conn);
Vector workorderdetList = wrkordrdts_obj.getProductList(workorderId);
// Hashtable BSysList = (Hashtable) USFEnv.getBillSystems();
BlgSys blgsys = new BlgSys();
Hashtable BSysList = (Hashtable) blgsys.searchBlgSys();
Enumeration BSys = BSysList.keys();
// The 2-Dimensional array to hold the Items Billing System wise.
Object[][] prodList = new Object[BSysList.size()][workorderdetList.size() + 1];
// The Number of Billing Systems are assumed to be equal to the
// Static Load Billing Systems Hashtable size. The Billing Systems will
// be in order starting from 1 and incrementing by one.
for (int i = 0; i < BSysList.size(); i++) {
// Set the 2D array to store the Billing System as the first element
// of each row.
prodList[i][0] = String.valueOf(i + 1);
}
// Loop throught the WorkOrder Items List and place them in the appropriate
// positions in the 2D array.
for (int j = 0; j < workorderdetList.size(); j++) {
// Determine the Billing System of the Product
Vector tmpVector = new Vector();
WrkOrdrDets workorderObj = (WrkOrdrDets) workorderdetList.elementAt(j);
RHCCBlgKeys bkObj =
blgkeys_obj.searchRHCCBlgKeys(((WrkOrdrDets) workorderdetList.elementAt(j)).getRBKID());
int bsid = (new Long(bkObj.getBsId())).intValue();
tmpVector.addElement(bkObj);
tmpVector.addElement(workorderObj);
// Based on the Billing System Id retreived place the Product Object
// in the 2D array.
int k = 1;
while (prodList[bsid - 1][k] != null) {
k = k + 1;
}
prodList[bsid - 1][k] = tmpVector;
}
// Return the 2D array
return prodList;
}
private void writeListErrors(
FileWriter fileOut,
Vector deviationMessages,
Vector databaseValues,
String ind,
char delimeter,
String variable,
String value,
String date,
String ref,
String comm) {
try {
if (errorList.size() > 0 || deviationMessages.size() > 0 || warningList.size() > 0) {
fileOut.write("#--------------------------------------------------\n");
}
if (errorList.size() > 0) {
for (int i = 0; i < errorList.size(); i++) {
fileOut.write("#" + (String) errorList.get(i) + "\n");
}
}
if (warningList.size() > 0) {
for (int i = 0; i < warningList.size(); i++) {
fileOut.write("#" + (String) warningList.get(i) + "\n");
}
}
if (deviationMessages.size() > 0) {
for (int i = 0; i < deviationMessages.size(); i++) {
fileOut.write("#" + (String) deviationMessages.elementAt(i) + "\n");
}
// write old values
fileOut.write("#" + databaseValues.elementAt(0) + "\n");
}
// if there are errors, the string is "Outcommented"
if (errorList.size() > 0) {
fileOut.write("#");
}
// write original string
fileOut.write(
ind + delimeter + variable + delimeter + value + delimeter + date + delimeter + ref
+ delimeter + comm + "\n");
if (errorList.size() > 0 || deviationMessages.size() > 0 || warningList.size() > 0) {
fileOut.write("#--------------------------------------------------\n");
}
} // try
catch (Exception e) {
e.printStackTrace(System.err);
}
}
/**
* Returns the value of the named parameter as a String, or null if the parameter was not sent or
* was sent without a value. The value is guaranteed to be in its normal, decoded form. If the
* parameter has multiple values, only the last one is returned (for backward compatibility). For
* parameters with multiple values, it's possible the last "value" may be null.
*
* @param name the parameter name.
* @return the parameter value.
*/
public String getParameter(String name) {
try {
Vector values = (Vector) parameters.get(name);
if (values == null || values.size() == 0) {
return null;
}
String value = (String) values.elementAt(values.size() - 1);
return value;
} catch (Exception e) {
return null;
}
}
/**
* Returns the values of the named parameter as a String array, or null if the parameter was not
* sent. The array has one entry for each parameter field sent. If any field was sent without a
* value that entry is stored in the array as a null. The values are guaranteed to be in their
* normal, decoded form. A single value is returned as a one-element array.
*
* @param name the parameter name.
* @return the parameter values.
*/
public String[] getParameterValues(String name) {
try {
Vector values = (Vector) parameters.get(name);
if (values == null || values.size() == 0) {
return null;
}
String[] valuesArray = new String[values.size()];
values.copyInto(valuesArray);
return valuesArray;
} catch (Exception e) {
return null;
}
}
