1 package com.tedpearson.ypp.market;
4 import java.awt.event.*;
6 import javax.accessibility.*;
9 import com.sun.java.accessibility.util.*;
16 import javax.xml.parsers.DocumentBuilderFactory;
17 import org.xml.sax.InputSource;
18 import java.util.zip.GZIPOutputStream;
19 import com.myjavatools.web.ClientHttpRequest;
20 import java.util.regex.*;
21 import java.util.prefs.Preferences;
23 import com.tedpearson.util.update.*;
27 allow adding new islands
28 allow adding new oceans
32 * MarketUploader is a class that handles the uploading of market data from
33 * Yohoho! Puzzle Pirates. Currently, it must be launched in the save Java
34 * Virtual Machine as YPP. This is handled by a sister "helper" class,
35 * {@link MarketUploaderRunner}.
37 * MarketUploader initializes after the main YPP window has initialized. It
38 * provides a simple window with a "Capture Market Data" button displayed.
39 * Upon clicking this button, a progress dialog is displayed, and the data
40 * is processed and submitted to the Pirate Commodities Trader with Bleach (PCTB)
41 * web server. If any errors occur, an error dialog is shown, and processing
42 * returns, the button becoming re-enabled.
44 * @see MarketUploaderRunner
46 public class MarketUploader implements TopLevelWindowListener, GUIInitializedListener {
47 private JFrame frame = null;
48 private Window window = null;
49 private JButton findMarket = null;
51 private final static String PCTB_LIVE_HOST_URL = "http://pctb.crabdance.com/";
52 private final static String PCTB_TEST_HOST_URL = "http://pctb.ilk.org/";
53 private String PCTB_HOST_URL;
55 // Yarrg protocol parameters
56 private final static String YARRG_CLIENTNAME = "jpctb greenend";
57 private final static String YARRG_CLIENTVERSION = "0.1";
58 private final static String YARRG_CLIENTFIXES = "";
59 private final static String YARRG_LIVE_URL = "http://upload.yarrg.chiark.net/commod-update-receiver";
60 private final static String YARRG_TEST_URL = "http://upload.yarrg.chiark.net/test/commod-update-receiver";
61 private String YARRG_URL;
63 private boolean uploadToYarrg;
64 private boolean uploadToPCTB;
66 private String islandName = null;
67 private String oceanName = null;
68 private java.util.concurrent.CountDownLatch latch = null;
70 private AccessibleContext sidePanel;
71 private HashMap<String,Integer> commodMap;
72 private HashMap<String,String> islandNumbers = new HashMap<String,String>();
74 String[] nums = new String[]
75 {"","Viridian","Midnight","Hunter","Cobalt","Sage","Ice","Malachite","Crimson","Opal"};
76 for(int i=1;i<nums.length;i++) {
77 islandNumbers.put(nums[i],""+i);
80 private PropertyChangeListener changeListener = new PropertyChangeListener() {
81 public void propertyChange(PropertyChangeEvent e) {
82 if(e.getNewValue() != null &&
83 e.getPropertyName().equals(AccessibleContext.ACCESSIBLE_CHILD_PROPERTY)) {
84 Accessible islandInfo = descendNodes(window,new int[] {0,1,0,0,2,2,0,0,0,0,1,2});;
85 String text = islandInfo.getAccessibleContext().getAccessibleText().getAtIndex(AccessibleText.SENTENCE,0);
86 int index = text.indexOf(":");
87 String name = text.substring(0,index);
89 //System.out.println(islandName);
90 sidePanel.removePropertyChangeListener(this);
97 * An abstract market offer, entailing a commodity being bought or sold by
98 * a shoppe, for a certain price in a certain quantity. Not instantiable.
103 abstract class Offer {
104 public int commodity, price, quantity, shoppe;
106 * Create an offer from <code>record</code>, determining the shoppe Id from
107 * <code>stallMap</code> and the commodity Id from <code>commodMap</code>.
108 * <code>priceIndex</code> should be the index of the price in the record
109 * (the quantity will be <code>priceIndex + 1</code>).
111 * @param record the record with data to create the offer from
112 * @param stallMap a map containing the ids of the various stalls
113 * @param commodMap a map containing the ids of the various commodities
114 * @param priceIndex the index of the price in the record
116 public Offer(ArrayList<String> record, LinkedHashMap<String,Integer> stallMap, HashMap<String,Integer> commodMap,
118 Integer commodId = commodMap.get(record.get(0));
119 if(commodId == null) {
120 throw new IllegalArgumentException();
122 commodity = commodId.intValue();
123 price = Integer.parseInt(record.get(priceIndex));
124 String qty = record.get(priceIndex+1);
125 if(qty.equals(">1000")) {
128 quantity = Integer.parseInt(record.get(priceIndex+1));
130 shoppe = stallMap.get(record.get(1)).intValue();
134 * Returns a human-readable version of this offer, useful for debugging
136 * @return human-readable offer
138 public String toString() {
139 return "[C:" + commodity + ",$" + price + ",Q:" + quantity + ",S:" + shoppe + "]";
144 * An offer from a shoppe or stall to buy a certain quantity of a commodity
145 * for a certain price. If placed in an ordered Set, sorts by commodity index ascending,
146 * then by buy price descending, and finally by stall id ascending.
148 class Buy extends Offer implements Comparable<Buy> {
150 * Creates a new <code>Buy</code> offer from the given <code>record</code>
151 * using the other parameters to determine stall id and commodity id of the offer.
153 * @param record the record with data to create the offer from
154 * @param stallMap a map containing the ids of the various stalls
155 * @param commodMap a map containing the ids of the various commodities
157 public Buy(ArrayList<String> record, LinkedHashMap<String,Integer> stallMap, HashMap<String,Integer> commodMap) {
158 super(record,stallMap,commodMap,2);
162 * Sorts by commodity index ascending, then price descending, then stall id ascending.
164 public int compareTo(Buy buy) {
165 // organize by: commodity index, price, stall index
166 if(commodity == buy.commodity) {
167 // organize by price, then by stall index
168 if(price == buy.price) {
169 // organize by stall index
170 return shoppe>buy.shoppe ? 1 : -1;
171 } else if(price > buy.price) {
176 } else if(commodity > buy.commodity) {
185 * An offer from a shoppe or stall to sell a certain quantity of a commodity
186 * for a certain price. If placed in an ordered Set, sorts by commodity index ascending,
187 * then by sell price ascending, and finally by stall id ascending.
189 class Sell extends Offer implements Comparable<Sell> {
191 * Creates a new <code>Sell</code> offer from the given <code>record</code>
192 * using the other parameters to determine stall id and commodity id of the offer.
194 * @param record the record with data to create the offer from
195 * @param stallMap a map containing the ids of the various stalls
196 * @param commodMap a map containing the ids of the various commodities
198 public Sell(ArrayList<String> record, LinkedHashMap<String,Integer> stallMap, HashMap<String,Integer> commodMap) {
199 super(record,stallMap,commodMap,4);
203 * Sorts by commodity index ascending, then price ascending, then stall id ascending.
205 public int compareTo(Sell sell) {
206 // organize by: commodity index, price, stall index
207 if(commodity == sell.commodity) {
208 // organize by price, then by stall index
209 if(price == sell.price) {
210 // organize by stall index
211 return shoppe>sell.shoppe ? 1 : -1;
212 } else if(price > sell.price) {
217 } else if(commodity > sell.commodity) {
226 * Entry point. Remove modified files and replace with backups.
227 * Register the jar file we are running from to be deleted upon quit.
228 * Finally, conditionally set up the GUI.
230 public MarketUploader() {
231 // check if we've been turned off in the control panel
232 Preferences prefs = Preferences.userNodeForPackage(getClass());
233 boolean launch = prefs.getBoolean("launchAtStartup", true);
238 if (prefs.getBoolean("useLiveServers", false)) {
239 YARRG_URL = YARRG_LIVE_URL;
240 PCTB_HOST_URL = PCTB_LIVE_HOST_URL;
242 YARRG_URL = YARRG_TEST_URL;
243 PCTB_HOST_URL = PCTB_TEST_HOST_URL;
246 uploadToYarrg=prefs.getBoolean("uploadToYarrg", true);
247 uploadToPCTB=prefs.getBoolean("uploadToPCTB", true);
249 EventQueueMonitor.addTopLevelWindowListener(this);
250 if (EventQueueMonitor.isGUIInitialized()) {
253 EventQueueMonitor.addGUIInitializedListener(this);
258 * Set up the GUI, with its window and one-button interface. Only initialize
259 * if we're running alongside a Window named "Puzzle Pirates" though.
261 private void createGUI() {
262 if (frame != null && window != null) {
263 if (window.getAccessibleContext().getAccessibleName().equals("Puzzle Pirates")) frame.setVisible(true);
266 frame = new JFrame("MarketUploader");
267 frame.setDefaultCloseOperation(JFrame.DISPOSE_ON_CLOSE);
268 frame.getContentPane().setLayout(new FlowLayout());
269 //frame.setPreferredSize(new Dimension(200, 60));
271 findMarket = new JButton("Upload Market Data");
272 findMarket.addActionListener(new ActionListener() {
273 public void actionPerformed(ActionEvent e) {
274 findMarket.setEnabled(false);
279 } catch(Exception e) {
283 if(sidePanel != null) {
284 // remove it if it's still attached
285 sidePanel.removePropertyChangeListener(changeListener);
289 findMarket.setEnabled(true);
294 frame.add(findMarket);
299 * Finds the island name from the /who tab, sets global islandName variable
301 private void getIsland() {
303 // If the league tracker is there, we can skip the faff
304 // and ask for its tooltip, since we're on a boat
306 Accessible leagueTracker = descendNodes(window,new int[] {0,1,0,0,2,1,1,1});
308 islandName = ((JLabel)leagueTracker).getToolTipText();
309 } catch (NullPointerException e) {
311 // evidently we're actually on an island
314 AccessibleContext chatArea = descendNodes(window,new int[] {0,1,0,0,0,2,0,0,2}).getAccessibleContext();
315 // attach the property change listener to the outer sunshine panel if the "ahoy" tab
316 // is not active, otherwise attach it to the scroll panel in the "ahoy" tab.
317 if(!"com.threerings.piracy.client.AttentionListPanel".
318 equals(descendNodes(window,new int[] {0,1,0,0,2,2,0}).getClass().getCanonicalName())) {
319 sidePanel = descendNodes(window,new int[] {0,1,0,0,2,2}).getAccessibleContext();
321 sidePanel = descendNodes(window,new int[] {0,1,0,0,2,2,0,0,0}).getAccessibleContext();
323 sidePanel.addPropertyChangeListener(changeListener);
324 latch = new java.util.concurrent.CountDownLatch(1);
325 // make the Players Online ("/who") panel appear
326 AccessibleEditableText chat = chatArea.getAccessibleEditableText();
327 chat.setTextContents("/w");
328 int c = chatArea.getAccessibleAction().getAccessibleActionCount();
329 for(int i=0;i<c;i++) {
330 if("notify-field-accept".equals(chatArea.getAccessibleAction().getAccessibleActionDescription(i))) {
331 chatArea.getAccessibleAction().doAccessibleAction(i);
335 // if we don't find the island name, hopefully the server will
339 * Find the ocean name from the window title, and set global oceanName variable
341 private void getOcean() {
343 AccessibleContext topwindow = window.getAccessibleContext();
344 oceanName = topwindow.getAccessibleName().replaceAll(".*on the (\\w+) ocean", "$1");
349 * Shows a dialog with the error <code>msg</code>.
351 * @param msg a String describing the error that occured.
353 private void error(String msg) {
354 JOptionPane.showMessageDialog(frame,msg,"Error",JOptionPane.ERROR_MESSAGE);
358 * Run the data collection process, and upload the results. This is the method
359 * that calls most of the other worker methods for the process. If an error occurs,
360 * the method will call the error method and return early, freeing up the button
361 * to be clicked again.
363 * @exception Exception if an error we didn't expect occured
365 private void runPCTB() throws Exception {
367 ProgressMonitor pm = new ProgressMonitor(frame,"Processing Market Data","Getting table data",0,100);
368 pm.setMillisToDecideToPopup(0);
369 pm.setMillisToPopup(0);
372 yarrgts = getYarrgTimestamp();
375 AccessibleTable t = findMarketTable();
377 error("Market table not found! Please open the Buy/Sell Commodities interface.");
380 if(t.getAccessibleRowCount() == 0) {
381 error("No data found, please wait for the table to have data first!");
384 if(!isDisplayAll()) {
385 error("Please select \"All\" from the Display: popup menu.");
392 latch.await(2, java.util.concurrent.TimeUnit.SECONDS);
394 ArrayList<ArrayList<String>> data = getData(t);
397 pm.setNote("Preparing data for Yarrg");
400 StringBuilder yarrgsb = new StringBuilder();
401 String yarrgdata; // string containing what we'll feed to yarrg
403 for (ArrayList<String> row : data) {
404 if (row.size() > 6) {
407 for (String rowitem : row) {
408 yarrgsb.append(rowitem != null ? rowitem : "");
409 yarrgsb.append("\t");
411 yarrgsb.setLength(yarrgsb.length()-1); // chop
412 yarrgsb.append("\n");
415 yarrgdata = yarrgsb.toString();
417 pm.setNote("Uploading to Yarrg");
419 if (islandName != null) {
420 runYarrg(yarrgts, oceanName, islandName, yarrgdata);
422 System.out.println("Couldn't upload to Yarrg - no island name found");
426 pm.setNote("Getting stall names");
428 if(pm.isCanceled()) {
431 TreeSet<Offer> buys = new TreeSet<Offer>();
432 TreeSet<Offer> sells = new TreeSet<Offer>();
433 LinkedHashMap<String,Integer> stallMap = getStallMap(data);
435 pm.setNote("Sorting offers");
436 if(pm.isCanceled()) {
441 HashMap<String,Integer> commodMap = getCommodMap();
442 if(commodMap == null) {
445 int[] offerCount = getBuySellMaps(data,buys,sells,stallMap,commodMap);
446 //println(buys.toString());
447 //System.out.println(sells);
448 //System.out.println("\n\n\n"+buys);
451 ByteArrayOutputStream outStream = new ByteArrayOutputStream();
453 pm.setNote("Sending data");
454 if(pm.isCanceled()) {
457 GZIPOutputStream out = new GZIPOutputStream(outStream);
458 //FileOutputStream out = new FileOutputStream(new File("output.text"));
459 DataOutputStream dos = new DataOutputStream(out);
460 dos.writeBytes("005\n");
461 dos.writeBytes(stallMap.size()+"\n");
462 dos.writeBytes(getAbbrevStallList(stallMap));
463 writeBuySellOffers(buys,sells,offerCount,out);
465 InputStream in = sendInitialData(new ByteArrayInputStream(outStream.toByteArray()));
467 if(pm.isCanceled()) {
470 pm.setNote("Waiting for PCTB...");
477 * Get the offer data out of the table and cache it in an <code>ArrayList</code>.
479 * @param table the <code>AccessibleTable</code> containing the market data
480 * @return an array of record arrays, each representing a row of the table
482 private ArrayList<ArrayList<String>> getData(AccessibleTable table) {
483 ArrayList<ArrayList<String>> data = new ArrayList<ArrayList<String>>();
484 for (int i = 0; i < table.getAccessibleRowCount(); i++) {
485 ArrayList<String> row = new ArrayList<String>();
486 for (int j = 0; j < table.getAccessibleColumnCount(); j++) {
487 row.add(table.getAccessibleAt(i, j).getAccessibleContext().getAccessibleName());
495 * @return the table containing market data if it exists, otherwise <code>null</code>
497 public AccessibleTable findMarketTable() {
498 Accessible node1 = window;
499 Accessible node = descendNodes(node1,new int[] {0,1,0,0,0,0,1,0,0,1,0,0}); // commod market
500 // commod market: {0,1,0,0,0,0,1,0,0,1,0} {0,1,0,0,0,0,1,0,1,0,0,1,0,0})
501 //System.out.println(node);
502 if (!(node instanceof JTable)) {
503 node = descendNodes(node1,new int[] {0,1,0,0,0,0,1,0,1,0,0,1,0,0}); // commod market
505 if (!(node instanceof JTable)) return null;
506 AccessibleTable table = node.getAccessibleContext().getAccessibleTable();
507 //System.out.println(table);
512 * Utility method to descend through several levels of Accessible children
515 * @param parent the node on which to start the descent
516 * @param path an array of ints, each int being the index of the next
517 * accessible child to descend.
518 * @return the <code>Accessible</code> reached by following the descent path,
519 * or <code>null</code> if the desired path was invalid.
521 private Accessible descendNodes(Accessible parent, int[] path) {
522 for(int i=0;i<path.length;i++) {
523 if (null == (parent = descend(parent, path[i]))) return null;
524 // System.out.println(parent.getClass());
530 * Descends one level to the specified child of the parent <code>Accessible</code> "node".
532 * @param parent the node with children
533 * @param childNum the index of the child of <code>parent</code> to return
534 * @return the <code>childNum</code> child of <code>parent</code> or <code>null</code>
535 * if the child is not found.
537 private Accessible descend(Accessible parent, int childNum) {
538 if (childNum >= parent.getAccessibleContext().getAccessibleChildrenCount()) return null;
539 return parent.getAccessibleContext().getAccessibleChild(childNum);
542 public static void main(String[] args) {
543 new MarketUploader();
547 * Set the global window variable after the YPP window is created,
548 * remove the top level window listener, and start the GUI
550 public void topLevelWindowCreated(Window w) {
552 EventQueueMonitor.removeTopLevelWindowListener(this);
557 * Returns true if the "Display:" menu on the commodities interface in YPP is set to "All"
559 * @return <code>true</code> if all commodities are displayed, otherwise <code>false</code>
561 private boolean isDisplayAll() {
562 Accessible button = descendNodes(window,new int[] {0,1,0,0,0,0,1,0,0,0,1});
563 if(!(button instanceof JButton)) {
564 button = descendNodes(window,new int[] {0,1,0,0,0,0,1,0,1,0,0,0,1});
566 String display = button.getAccessibleContext().getAccessibleName();
567 if(!display.equals("All")) {
573 public void topLevelWindowDestroyed(Window w) {}
575 public void guiInitialized() {
580 * Gets the list of commodities and their associated commodity ids.
581 * On the first run, the data is downloaded from the PCTB server.
582 * After the first run, the data is cached using <code>Preferences</code>.
584 * Potential issues: When more commodities are added to the server, this
585 * program will currently break unless the user deletes the preferences
586 * file or we give them a new release with a slighly different storage
587 * location for the data.
589 * @return a map where the key is the commodity and the value is the commodity id.
591 private HashMap<String,Integer> getCommodMap() {
592 if(commodMap != null) {
595 HashMap<String,Integer> map = new HashMap<String,Integer>();
596 Preferences prefs = Preferences.userNodeForPackage(getClass());
599 URL host = new URL(PCTB_HOST_URL + "commodmap.php");
600 BufferedReader br = new BufferedReader(new InputStreamReader(host.openStream()));
601 StringBuilder sb = new StringBuilder();
603 while((str = br.readLine()) != null) {
606 int first = sb.indexOf("<pre>") + 5;
607 int last = sb.indexOf("</body>");
608 xml = sb.substring(first,last);
609 //System.out.println(xml);
610 Reader reader = new CharArrayReader(xml.toCharArray());
611 Document d = DocumentBuilderFactory.newInstance().newDocumentBuilder().parse(new InputSource(reader));
612 NodeList maps = d.getElementsByTagName("c");
613 for(int i=0;i<maps.getLength();i++) {
614 NodeList content = maps.item(i).getChildNodes();
615 Integer num = Integer.parseInt(content.item(1).getTextContent());
616 map.put(content.item(0).getTextContent(),num);
618 } catch(Exception e) {
620 error("Unable to load Commodity list from server!");
628 * Given the list of offers, this method will find all the unique stall names
629 * and return them in a <code>LinkedHashMap</code> where the key is the stall name
630 * and the value is the generated stall id (position in the list).
632 * The reason this method returns a LinkedHashMap instead of a simple HashMap is the need
633 * for iterating over the stall names in insertion order for output to the server.
635 * @param offers the list of records from the commodity buy/sell interface
636 * @return an iterable ordered map of the stall names and generated stall ids
638 private LinkedHashMap<String,Integer> getStallMap(ArrayList<ArrayList<String>> offers) {
640 LinkedHashMap<String,Integer> map = new LinkedHashMap<String,Integer>();
641 for(ArrayList<String> offer : offers) {
642 String shop = offer.get(1);
643 if(!map.containsKey(shop)) {
652 * Gets a sorted list of Buys and Sells from the list of records. <code>buys</code> and <code>sells</code>
653 * should be pre-initialized and passed into the method to receive the data.
654 * Returns a 2-length int array with the number of buys and sells found.
656 * @param offers the data found from the market table in-game
657 * @param buys an empty initialized <code>TreeSet<Offer></code> to
658 * hold the Buy offers.
659 * @param sells an empty initialized <code>TreeSet<Offer></code> to
660 * hold the Sell offers.
661 * @param stalls the map of stalls to their ids
662 * @param commodMap the map of commodities to their ids
663 * @return a 2-length int[] array containing the number of buys and sells, respectively
665 private int[] getBuySellMaps(ArrayList<ArrayList<String>> offers, TreeSet<Offer> buys,
666 TreeSet<Offer> sells, LinkedHashMap<String,Integer> stalls, HashMap<String,Integer> commodMap) {
667 int[] buySellCount = new int[2];
668 for(ArrayList<String> offer : offers) {
670 if(offer.get(2) != null) {
671 buys.add(new Buy(offer,stalls,commodMap));
674 if(offer.get(4) != null) {
675 sells.add(new Sell(offer,stalls,commodMap));
678 } catch(IllegalArgumentException e) {
679 // System.err.println("Error: Unsupported Commodity \"" + offer.get(0) + "\"");
686 * Prepares the list of stalls for writing to the output stream.
687 * The <code>String</code> returned by this method is ready to be written
688 * directly to the stream.
690 * All shoppe names are left as they are. Stall names are abbreviated just before the
691 * apostrophe in the possessive, with an "^" and a letter matching the stall's type
692 * appended. Example: "Burninator's Ironworking Stall" would become "Burninator^I".
694 * @param stallMap the map of stalls and stall ids in an iterable order
695 * @return a <code>String</code> containing the list of stalls in format ready
696 * to be written to the output stream.
698 private String getAbbrevStallList(LinkedHashMap<String,Integer> stallMap) {
699 // set up some mapping
700 HashMap<String,String> types = new HashMap<String,String>();
701 types.put("Apothecary Stall", "A");
702 types.put("Distilling Stall", "D");
703 types.put("Furnishing Stall", "F");
704 types.put("Ironworking Stall", "I");
705 types.put("Shipbuilding Stall", "S");
706 types.put("Tailoring Stall", "T");
707 types.put("Weaving Stall", "W");
709 StringBuilder sb = new StringBuilder();
710 for(String name : stallMap.keySet()) {
711 int index = name.indexOf("'s");
712 String finalName = name;
715 finalName = name.substring(0,index);
716 if(index + 2 < name.length()) {
717 String end = name.substring(index+2,name.length()).trim();
718 type = types.get(end);
722 sb.append(name+"\n");
724 sb.append(finalName+"^"+type+"\n");
727 return sb.toString();
731 * Writes a list of offers in correct format to the output stream.
733 * The format is thus: (all numbers are 2-byte integers in little-endian format)
734 * (number of offers of this type, aka buy/sell)
735 * (commodity ID) (number of offers for this commodity) [shopID price qty][shopID price qty]...
737 * @param out the output stream to write the data to
738 * @param offers the offers to write
740 private void writeOffers(OutputStream out, TreeSet<Offer> offers) throws IOException {
741 ByteArrayOutputStream buffer = new ByteArrayOutputStream();
742 if(offers.size() == 0) {
743 // nothing to write, and "0" has already been written
746 int commodity = offers.first().commodity;
748 for(Offer offer : offers) {
749 if(commodity != offer.commodity) {
751 writeBufferedOffers(out,buffer.toByteArray(),commodity,count);
753 commodity = offer.commodity;
756 writeLEShort(offer.shoppe,buffer); // stall index
757 writeLEShort(offer.price,buffer); // buy price
758 writeLEShort(offer.quantity,buffer); // buy qty
761 writeBufferedOffers(out,buffer.toByteArray(),commodity,count);
765 * Writes the buffered data to the output strea for one commodity.
767 * @param out the stream to write to
768 * @param buffer the buffered data to write
769 * @param commodity the commmodity id to write before the buffered data
770 * @param count the number of offers for this commodity to write before the data
772 private void writeBufferedOffers(OutputStream out, byte[] buffer, int commodity, int count) throws IOException {
773 writeLEShort(commodity,out); // commod index
774 writeLEShort(count,out); // offer count
775 out.write(buffer); // the buffered offers
779 * Writes the buy and sell offers to the outputstream by calling other methods.
781 * @param buys list of Buy offers to write
782 * @param sells list of Sell offers to write
783 * @param offerCount 2-length int array containing the number of buys and sells to write out
784 * @param out the stream to write to
786 private void writeBuySellOffers(TreeSet<Offer> buys,
787 TreeSet<Offer> sells, int[] offerCount, OutputStream out) throws IOException {
789 writeLEShort(offerCount[0],out);
790 writeOffers(out,buys);
792 writeLEShort(offerCount[1],out);
793 writeOffers(out,sells);
797 * Sends the data to the server via multipart-formdata POST,
798 * with the gzipped data as a file upload.
800 * @param file an InputStream open to the gzipped data we want to send
802 private InputStream sendInitialData(InputStream file) throws IOException {
803 ClientHttpRequest http = new ClientHttpRequest(PCTB_HOST_URL + "upload.php");
804 http.setParameter("marketdata","marketdata.gz",file,"application/gzip");
809 * Utility method to write a 2-byte int in little-endian form to an output stream.
811 * @param num an integer to write
812 * @param out stream to write to
814 private void writeLEShort(int num, OutputStream out) throws IOException {
815 out.write(num & 0xFF);
816 out.write((num >>> 8) & 0xFF);
820 * Reads the response from the server, and selects the correct parameters
821 * which are sent in a GET request to the server asking it to confirm
822 * the upload and accept the data into the database. Notably, the island id
823 * and ocean id are determined, while other parameter such as the filename
824 * are determined from the hidden form fields.
826 * @param in stream of data from the server to read
828 private void finishUpload(InputStream in) throws IOException {
829 StringBuilder sb = new StringBuilder();
830 BufferedReader br = new BufferedReader(new InputStreamReader(in));
832 while((str = br.readLine()) != null) {
835 String html = sb.toString();
836 //System.out.println(html);
837 String topIsland = "0", ocean, islandNum, action, forceReload, filename;
839 Pattern whoIsland = Pattern.compile("<option value=\"\\d+\">" + islandName + ", ([^<]+)</ocean>");
840 m = whoIsland.matcher(html);
842 // the server agrees with us
843 ocean = islandNumbers.get(m.group(1));
845 // if the server doesn't agree with us:
846 Pattern island = Pattern.compile("<option value=\"(\\d+)\">([^,]+), ([^<]+)</ocean>");
847 m = island.matcher(html);
849 // server doesn't know what island. if we do, let's select it.
850 if(islandName != null && !islandName.equals("")) {
851 // find the island name in the list as many times as it occurs
852 // if more than once, present a dialog
853 // set the ocean, we have the islandname, topIsland = 0
854 Pattern myIsland = Pattern.compile("islands\\[(\\d+)\\]\\[\\d+\\]=new Option\\(\"" + islandName +
856 Matcher m1 = myIsland.matcher(html);
857 ArrayList<Integer> myOceanNums = new ArrayList<Integer>();
859 myOceanNums.add(new Integer(m1.group(1)));
861 if(myOceanNums.size() > 0) {
862 if(myOceanNums.size() > 1) {
863 String[] myOceansList = new String[myOceanNums.size()];
865 for(int myOcean : myOceanNums) {
866 Pattern oceanNumPat = Pattern.compile("<option value=\"\\" + myOcean + "\">([^<]+)</option>");
867 m1 = oceanNumPat.matcher(html);
869 myOceansList[i++] = m1.group(1);
872 Object option = JOptionPane.showInputDialog(null,"We found islands named \"" +
873 islandName +"\" on " + myOceansList.length + " oceans:","Choose Ocean",
874 JOptionPane.QUESTION_MESSAGE, null, myOceansList, null);
876 error("Unable to determine the current island!");
879 ocean = islandNumbers.get(option).toString();
881 ocean = myOceanNums.get(0).toString();
884 error("Unknown island!");
888 error("Unable to determine island name from the client!");
892 topIsland = m.group(1);
893 islandName = m.group(2);
894 ocean = islandNumbers.get(m.group(3));
897 Pattern oceanIslandNum = Pattern.compile("islands\\[" + ocean + "\\]\\[\\d+\\]=new Option\\(\"" + islandName + "\",(\\d+)");
898 m = oceanIslandNum.matcher(html);
900 error("This does not seem to be a valid island! Unable to upload.");
903 islandNum = m.group(1);
904 Pattern params = Pattern.compile("(?s)<input type=\"hidden\" name=\"action\" value=\"([^\"]+)\" />.+?<input type=\"hidden\" name=\"forcereload\" value=\"([^\"]+)\" />.+?<input type=\"hidden\" name=\"filename\" value=\"([^\"]+)\" />");
905 m = params.matcher(html);
907 error("The PCTB server returned unusual data. Maybe you're using an old version of the uploader?");
911 forceReload = m.group(2);
912 filename = m.group(3);
913 URL get = new URL(PCTB_HOST_URL + "upload.php?topisland=" + topIsland + "&ocean=" + ocean + "&island="
914 + islandNum + "&action=" + action + "&forcereload=" + forceReload + "&filename=" + filename);
915 // System.out.println(get);
916 BufferedReader br2 = new BufferedReader(new InputStreamReader(get.openStream()));
917 sb = new StringBuilder();
918 while((str = br2.readLine()) != null) {
921 Pattern done = Pattern.compile("Your data has been integrated into the database. Thank you!");
922 m = done.matcher(sb.toString());
924 //System.out.println("FILE upload successful!!!");
926 error("Something was wrong with the final upload parameters!");
927 System.err.println(sb.toString());
928 System.err.println(html);
932 private String getYarrgTimestamp() throws IOException {
933 ClientHttpRequest http = new ClientHttpRequest (YARRG_URL);
934 http.setParameter("clientname", YARRG_CLIENTNAME);
935 http.setParameter("clientversion", YARRG_CLIENTVERSION);
936 http.setParameter("clientfixes", YARRG_CLIENTFIXES);
937 http.setParameter("requesttimestamp", "y");
938 InputStream in = http.post();
939 BufferedReader br = new BufferedReader(new InputStreamReader(in));
940 String tsresult = br.readLine();
941 return tsresult.substring(3, tsresult.length()-1);
944 private void runYarrg(String timestamp, String ocean, String island, String yarrgdata) throws IOException {
945 ByteArrayOutputStream bos = new ByteArrayOutputStream();
946 BufferedOutputStream bufos = new BufferedOutputStream(new GZIPOutputStream(bos));
947 bufos.write(yarrgdata.getBytes() );
949 ByteArrayInputStream file = new ByteArrayInputStream(bos.toByteArray());
951 ClientHttpRequest http = new ClientHttpRequest (YARRG_URL);
952 http.setParameter("clientname", YARRG_CLIENTNAME);
953 http.setParameter("clientversion", YARRG_CLIENTVERSION);
954 http.setParameter("clientfixes", YARRG_CLIENTFIXES);
955 http.setParameter("timestamp", timestamp);
956 http.setParameter("ocean", ocean);
957 http.setParameter("island", island);
958 http.setParameter("data", "deduped.tsv.gz", file, "application/octet-stream");
959 InputStream in = http.post();
960 BufferedReader br = new BufferedReader(new InputStreamReader(in));
962 while((yarrgresult = br.readLine()) != null) {
963 System.out.println(yarrgresult);