public String getLegend(String[] cityMap, int[] POIs) { char[] ans = new char[POIs.length]; Hashtable hash = new Hashtable(); for (int i = 0; i < cityMap.length; i++) { for (int j = 0; j < cityMap[i].length(); j++) { char cur = cityMap[i].charAt(j); int k = 1; if (!hash.containsKey(cur)) { hash.put(cur, k); } else { int prev = (int) hash.get(cur); hash.remove(cur); hash.put(cur, prev + 1); } } } Enumeration vals = hash.keys(); while (vals.hasMoreElements()) { char c = (char) vals.nextElement(); for (int i = 0; i < POIs.length; i++) { if (hash.get(c) == POIs[i]) { ans[i] = c; } } } String str = new String(ans); return str; }
/** Description of the Method */ public void removeAllElements() { for (Enumeration<BPM_Element> e = listModel.elements(); e.hasMoreElements(); ) { BPM_Element elm = e.nextElement(); elm.stopMonitor(); } listModel.removeAllElements(); }
// ------------------------------------------- public static String[] mergeArrays(String[] sa1, String[] sa2) { if (sa1 == null) { sa1 = new String[0]; } if (sa2 == null) { sa2 = new String[0]; } int sa1Len = sa1.length; int sa2Len = sa2.length; Hashtable tab = new Hashtable(sa1Len + sa2Len); for (int i = 0; i < sa1Len; i++) { tab.put(sa1[i], sa1[i]); } for (int i = 0; i < sa2Len; i++) { tab.put(sa2[i], sa2[i]); } int len = tab.size(); String[] res = new String[len]; int i = 0; for (Enumeration e = tab.keys(); e.hasMoreElements(); ) { String s = (String) e.nextElement(); res[i++] = s; } return res; }
/** ** Prints all LocalString keys for this I18N instance */ public void printKeyValues() { Enumeration e = this.getKeys(); if (e != null) { for (; e.hasMoreElements(); ) { String k = (String) e.nextElement(); String v = this.getString(k, "?"); Print.logInfo("Key:" + k + " Value:" + v); } } }
/* * Applet is no longer displayed */ public void stop() { // Tell all pages to stop talking to the server Enumeration e = pages.elements(); while (e.hasMoreElements()) { SOAPMonitorPage pg = (SOAPMonitorPage) e.nextElement(); if (pg != null) { pg.stop(); } } }
/** * Returns the bPM attribute of the BPMsTable object * * @param name The Parameter * @return The bPM value */ public BPM_Element getBPM(String name) { BPM_Element bpmElm = null; Enumeration<BPM_Element> bpm_enum = listModel.elements(); while (bpm_enum.hasMoreElements()) { BPM_Element bpmElm1 = bpm_enum.nextElement(); if (bpmElm1.getName().equals(name)) { bpmElm = bpmElm1; } } return bpmElm; }
/** Check if soap data matches filter */ public boolean filterMatch(SOAPMonitorData soap) { boolean match = true; if (filter_include != null) { // Check for service match Enumeration e = filter_include.elements(); match = false; while (e.hasMoreElements() && !match) { String service = (String) e.nextElement(); if (service.equals(soap.getTargetService())) { match = true; } } } if (filter_exclude != null) { // Check for service match Enumeration e = filter_exclude.elements(); while (e.hasMoreElements() && match) { String service = (String) e.nextElement(); if (service.equals(soap.getTargetService())) { match = false; } } } if (filter_active) { // Check for active status match if (soap.getSOAPResponse() != null) { match = false; } } if (filter_complete) { // Check for complete status match if (soap.getSOAPResponse() == null) { match = false; } } // The "most recent" is always a match if (soap.getId() == null) { match = true; } return match; }
/** * Helper method to convert properties to string. * * @param prop a <code>Properties</code> value * @return a <code>String</code> value */ public static String convertPropsToString(Properties prop) { if (prop == null) { return "{null}"; } StringBuffer strBuf = new StringBuffer("{ "); for (Enumeration enum1 = prop.propertyNames(); enum1.hasMoreElements(); ) { Object obj = enum1.nextElement(); strBuf.append("[ ").append(obj).append("->"); Object val = prop.getProperty((String) obj); if (val == null) strBuf.append("null"); else strBuf.append((String) val); strBuf.append(" ] "); } strBuf.append("}"); return strBuf.toString(); }
/** * Take all the properties and translate them to actual values. This method takes the set * properties and traverse them over all entries, including the default properties for that * properties. The values no longer contain macros. * * @return A new Properties with the flattened values */ public Properties getFlattenedProperties() { // Some macros only work in a lower processor, so we // do not report unknown macros while flattening flattening = true; try { Properties flattened = new Properties(); Properties source = domain.getProperties(); for (Enumeration<?> e = source.propertyNames(); e.hasMoreElements(); ) { String key = (String) e.nextElement(); if (!key.startsWith("_")) if (key.startsWith("-")) flattened.put(key, source.getProperty(key)); else flattened.put(key, process(source.getProperty(key))); } return flattened; } finally { flattening = false; } }
/** Refilter the list of messages */ public void applyFilter() { // Re-filter using new criteria filter_data = null; if ((filter_include != null) || (filter_exclude != null) || filter_active || filter_complete) { filter_data = new Vector(); Enumeration e = data.elements(); SOAPMonitorData soap; while (e.hasMoreElements()) { soap = (SOAPMonitorData) e.nextElement(); if (filterMatch(soap)) { filter_data.addElement(soap); } } } fireTableDataChanged(); }
public String verify(JarFile jar, String... algorithms) throws IOException { if (algorithms == null || algorithms.length == 0) algorithms = new String[] {"MD5", "SHA"}; else if (algorithms.length == 1 && algorithms[0].equals("-")) return null; try { Manifest m = jar.getManifest(); if (m.getEntries().isEmpty()) return "No name sections"; for (Enumeration<JarEntry> e = jar.entries(); e.hasMoreElements(); ) { JarEntry je = e.nextElement(); if (MANIFEST_ENTRY.matcher(je.getName()).matches()) continue; Attributes nameSection = m.getAttributes(je.getName()); if (nameSection == null) return "No name section for " + je.getName(); for (String algorithm : algorithms) { try { MessageDigest md = MessageDigest.getInstance(algorithm); String expected = nameSection.getValue(algorithm + "-Digest"); if (expected != null) { byte digest[] = Base64.decodeBase64(expected); copy(jar.getInputStream(je), md); if (!Arrays.equals(digest, md.digest())) return "Invalid digest for " + je.getName() + ", " + expected + " != " + Base64.encodeBase64(md.digest()); } else reporter.error("could not find digest for " + algorithm + "-Digest"); } catch (NoSuchAlgorithmException nsae) { return "Missing digest algorithm " + algorithm; } } } } catch (Exception e) { return "Failed to verify due to exception: " + e.getMessage(); } return null; }
static void writeUsersToFile() { userWriter = createCSVFile("Users.dat"); // write the list of users to file System.out.println("Users that are both seller and buyer BUT different ratings: "); Enumeration<String> keys = userList.keys(); while (keys.hasMoreElements()) { String curUserID = keys.nextElement(); String curUser[] = userList.get(curUserID); String userRow = wrapQuotations(curUser[0]) + "," + curUser[1] + "," + curUser[2] + "," + wrapQuotations(curUser[3]) + "," + wrapQuotations(curUser[4]); writeLine(userWriter, userRow); // if(curUser[1] != null && curUser[2] != null && !curUser[1].equals(curUser[2])) // System.out.println(curUser[0]); } System.out.println("----end different ratings----"); // System.out.println("The users that are both seller and buyer: "); // Enumeration<String> both = bothSellerAndBuyer.elements(); // while(both.hasMoreElements()) { // System.out.println(both.nextElement()); // } // System.out.println("----end both----"); try { userWriter.flush(); userWriter.close(); } catch (IOException e) { e.printStackTrace(); } }
@Override public Response serve(String uri, String method, Properties header, Properties parms) { if (!uri.equals("/mediaserver")) { return super.serve(uri, method, header, parms); // this way we can // also serve up // normal files and // content } logger.fine(method + " '" + uri + "' "); Enumeration<?> e = header.propertyNames(); while (e.hasMoreElements()) { String value = (String) e.nextElement(); logger.fine(" HDR: '" + value + "' = '" + header.getProperty(value) + "'"); } e = parms.propertyNames(); while (e.hasMoreElements()) { String value = (String) e.nextElement(); logger.fine(" PRM: '" + value + "' = '" + parms.getProperty(value) + "'"); } // TODO: check the actual path... final String mediaPath = parms.getProperty("media"); final String outputFormatStr = parms.getProperty("format"); final String mimeType = parms.getProperty("mime"); logger.info("requested media: " + mediaPath); logger.info("requested mime type: " + mimeType); if (mediaPath == null) return new Response(HTTP_FORBIDDEN, "text/plain", "mediaPath parameter not specified"); if (mimeType == null) return new Response(HTTP_FORBIDDEN, "text/plain", "mimeType parameter not specified"); // TODO: if we aren't performing any transcoding, just serve the file up // directly. // TODO: capture sources need to be treated as singletons, with some // kind of broadcasting/cloning to ensure // that multiple connections can be made. final String serverSideUrlStr = mediaPath; // URLUtils.createUrlStr(new // File(mediaPath)); // TODO: // enforce that we can't just // serve up anything anywhere final ContentDescriptor outputContentDescriptor = new FileTypeDescriptor(ContentDescriptor.mimeTypeToPackageName(mimeType)); final Format outputFormat; if (outputFormatStr == null) { outputFormat = null; } else { try { outputFormat = FormatArgUtils.parse(outputFormatStr); } catch (ParseException e1) { logger.log(Level.WARNING, "" + e1, e1); return new Response(HTTP_FORBIDDEN, "text/plain", "" + e1); } } logger.info("serverSideUrlStr: " + serverSideUrlStr); logger.info("outputContentDescriptor: " + outputContentDescriptor); logger.info("outputFormat: " + outputFormat); final InputStream is; try { is = getInputStream(serverSideUrlStr, outputFormat, outputContentDescriptor); } catch (Exception e1) { return new Response(HTTP_FORBIDDEN, "text/plain", "" + e1); } final String responseMimeType; // workaround for the problem that the multipart/x-mixed-replace // boundary is not stored anywhere. // this assumes that if we are serving multipart/x-mixed-replace data, // that MultipartMixedReplaceMux is being used. if (mimeType.equals("multipart/x-mixed-replace")) responseMimeType = mimeType + ";boundary=" + MultipartMixedReplaceMux.BOUNDARY; else responseMimeType = mimeType; logger.info("Response mime type: " + responseMimeType); return new Response(HTTP_OK, responseMimeType, is); }
/** Description of the Method */ public void startMonitor() { for (Enumeration<BPM_Element> e = listModel.elements(); e.hasMoreElements(); ) { BPM_Element elm = e.nextElement(); elm.startMonitor(); } }