/** * Instantiates the query for rscore * * @param query contains user query * @param cmp contains compare structure * @param resultIndices passes the indices that store the result * @throws DatabaseException when BerkeleyDB passes errors * @throws FileNotFoundException when respective .idx or .txt value not found */ private void queryRScore(String query, ArrayList<Integer> resultIndices, COMPARE cmp) throws FileNotFoundException, DatabaseException { if (cmp == COMPARE.EQUAL) { query = query.replace("rscore=", "").toLowerCase(); queryDB(query, rscoreIndex, resultIndices); return; } else if (cmp == COMPARE.LESS) { query = query.replace("rscore<", ""); } else { query = query.replace("rscore>", ""); } OperationStatus oprStatus; Database std_db = new Database(rscoreIndex, null, null); Cursor std_cursor = std_db.openCursor(null, null); // Create new cursor object if (cmp == COMPARE.LESS) { for (int n = 0; n < Integer.parseInt(query); n++) { String searchkey = new String(); searchkey = n + ".0"; DatabaseEntry key = new DatabaseEntry(); DatabaseEntry data = new DatabaseEntry(); oprStatus = std_cursor.getFirst(key, data, LockMode.DEFAULT); key.setData(searchkey.getBytes()); key.setSize(searchkey.length()); data = new DatabaseEntry(); oprStatus = std_cursor.getSearchKey(key, data, LockMode.DEFAULT); while (oprStatus == OperationStatus.SUCCESS) { String s = new String(data.getData()); if (!(resultIndices.contains(Integer.parseInt(s)))) { resultIndices.add(Integer.parseInt(s)); } oprStatus = std_cursor.getNextDup(key, data, LockMode.DEFAULT); } } } else { for (int n = 5; n > Integer.parseInt(query); n--) { String searchkey = new String(); searchkey = n + ".0"; DatabaseEntry key = new DatabaseEntry(); DatabaseEntry data = new DatabaseEntry(); oprStatus = std_cursor.getFirst(key, data, LockMode.DEFAULT); key.setData(searchkey.getBytes()); key.setSize(searchkey.length()); data = new DatabaseEntry(); oprStatus = std_cursor.getSearchKey(key, data, LockMode.DEFAULT); while (oprStatus == OperationStatus.SUCCESS) { String s = new String(data.getData()); if (!(resultIndices.contains(Integer.parseInt(s)))) { resultIndices.add(Integer.parseInt(s)); } oprStatus = std_cursor.getNextDup(key, data, LockMode.DEFAULT); } } } }
public static Database buildsecondary(Database std) { // Parse database loaded try { io.deleteFile("secondarydb"); // SecondaryDatabases started DatabaseConfig dbConfig = new DatabaseConfig(); dbConfig.setType(DatabaseType.HASH); dbConfig.setAllowCreate(true); dbConfig.setUnsortedDuplicates(true); Database secdb = new Database("secondarydb", null, dbConfig); // Cursors started Cursor stdcursor = std.openCursor(null, null); Cursor secdbcursor = secdb.openCursor(null, null); // Key and Data started DatabaseEntry stdkey = new DatabaseEntry(); DatabaseEntry stddata = new DatabaseEntry(); DatabaseEntry seckey = new DatabaseEntry(); DatabaseEntry secdata = new DatabaseEntry(); while (stdcursor.getNext(stdkey, stddata, LockMode.DEFAULT) == OperationStatus.SUCCESS) { // Writing into secondary db String[] key = new String(stdkey.getData()).split(","); String data = new String(stddata.getData()); // DEBUG: // System.out.println("key 0:" + key[0] + " key 1:" + key[1] + " data:" + data); seckey.setData(key[1].getBytes()); OperationStatus operation = secdbcursor.getSearchKey(seckey, secdata, LockMode.DEFAULT); String b = null; while (operation == OperationStatus.SUCCESS) { b = new String(secdata.getData()); secdbcursor.delete(); operation = secdbcursor.getNextDup(seckey, secdata, LockMode.DEFAULT); } if (b == null) { seckey.setData(key[1].getBytes()); secdata.setData(("(" + key[0] + "," + data + ")").getBytes()); secdb.put(null, seckey, secdata); } if (b != null) { secdata.setData(b.concat("(" + key[0] + "," + data + ")").getBytes()); secdb.put(null, seckey, secdata); } seckey.setData(null); secdata.setData(null); stdkey.setData(null); stddata.setData(null); } // io.debugread(secdb); return secdb; } catch (Exception e) { System.out.println("Error creating <user>,<song,rating> secondary table!\n"); System.out.println(e.getMessage()); } return null; // SHOULD NEVER HAPPEN }
/** * Inserts an entity and returns null, or updates it if the primary key already exists and returns * the existing entity. * * <p>If a {@link PrimaryKey#sequence} is used and the primary key field of the given entity is * null or zero, this method will assign the next value from the sequence to the primary key field * of the given entity. * * @param txn the transaction used to protect this operation, null to use auto-commit, or null if * the store is non-transactional. * @param entity the entity to be inserted or updated. * @return the existing entity that was updated, or null if the entity was inserted. * @throws DatabaseException the base class for all BDB exceptions. */ public E put(Transaction txn, E entity) throws DatabaseException { DatabaseEntry keyEntry = new DatabaseEntry(); DatabaseEntry dataEntry = new DatabaseEntry(); assignKey(entity, keyEntry); boolean autoCommit = false; Environment env = db.getEnvironment(); if (transactional && txn == null && DbCompat.getThreadTransaction(env) == null) { txn = env.beginTransaction(null, getAutoCommitTransactionConfig()); autoCommit = true; } CursorConfig cursorConfig = null; if (concurrentDB) { cursorConfig = new CursorConfig(); DbCompat.setWriteCursor(cursorConfig, true); } boolean failed = true; Cursor cursor = db.openCursor(txn, cursorConfig); LockMode lockMode = locking ? LockMode.RMW : null; try { while (true) { OperationStatus status = cursor.getSearchKey(keyEntry, dataEntry, lockMode); if (status == OperationStatus.SUCCESS) { E existing = entityBinding.entryToObject(keyEntry, dataEntry); entityBinding.objectToData(entity, dataEntry); cursor.put(keyEntry, dataEntry); failed = false; return existing; } else { entityBinding.objectToData(entity, dataEntry); status = cursor.putNoOverwrite(keyEntry, dataEntry); if (status != OperationStatus.KEYEXIST) { failed = false; return null; } } } } finally { cursor.close(); if (autoCommit) { if (failed) { txn.abort(); } else { txn.commit(); } } } }
/** * Generic query process * * @param query contains parsed query for process * @param db_name contains database to query * @param indices passes the indices that store the result * @throws DatabaseException when BerkeleyDB passes errors * @throws FileNotFoundException when respective .idx or .txt value not found */ private void queryDB(String query, String db_name, ArrayList<Integer> indices) throws DatabaseException, FileNotFoundException { OperationStatus oprStatus; Database std_db = new Database(db_name, null, null); Cursor std_cursor = std_db.openCursor(null, null); // Create new cursor object DatabaseEntry key = new DatabaseEntry(); DatabaseEntry data = new DatabaseEntry(); key.setData(query.getBytes()); key.setSize(query.length()); // Returns OperationStatus oprStatus = std_cursor.getSearchKey(key, data, LockMode.DEFAULT); while (oprStatus == OperationStatus.SUCCESS) { String s = new String(data.getData()); if (!(indices.contains(Integer.parseInt(s)))) { indices.add(Integer.parseInt(s)); } oprStatus = std_cursor.getNextDup(key, data, LockMode.DEFAULT); } std_cursor.close(); std_db.close(); }
public static String top3(String line, Database secdb, Database tdb) throws DatabaseException, FileNotFoundException { // configure sqSum db for keeping track of cumulative squaresums io.deleteFile("sqSumdb"); DatabaseConfig dbConfig = new DatabaseConfig(); dbConfig.setType(DatabaseType.HASH); dbConfig.setAllowCreate(true); dbConfig.setUnsortedDuplicates(true); Database sqSumdb = new Database("sqSumdb", null, dbConfig); Cursor sqSumCurs = sqSumdb.openCursor(null, null); DatabaseEntry sqSumKey = new DatabaseEntry(); DatabaseEntry sqSumData = new DatabaseEntry(); Cursor secCurs = secdb.openCursor(null, null); Cursor tCurs = tdb.openCursor(null, null); DatabaseEntry secKey = new DatabaseEntry(); DatabaseEntry secData = new DatabaseEntry(); DatabaseEntry tKey = new DatabaseEntry(); DatabaseEntry tData = new DatabaseEntry(); // get input song users and ratings tKey.setData(line.getBytes()); if (tCurs.getSearchKey(tKey, tData, LockMode.DEFAULT) == OperationStatus.SUCCESS) { // for each user in input song, get songs and ratings HashMap<String, String> iRatings = parseBrace(new String(tData.getData())); for (String user : iRatings.keySet()) { // get current user's rating for input song int inputRating = Integer.parseInt(iRatings.get(user)); // get songs and ratings for user secKey.setData(null); secData.setData(null); secKey.setData(user.getBytes()); if (secCurs.getSearchKey(secKey, secData, null) == OperationStatus.SUCCESS) { // for each song rated by user HashMap<String, String> currSongs = parseBrace(new String(secData.getData())); for (String song : currSongs.keySet()) { // input song should not be compared to itself, otherwise get the users and ratings for // it if (song.equals(line)) continue; // current user's rating for song under inspection int songRating = Integer.parseInt(currSongs.get(song)); sqSumKey.setData(null); sqSumData.setData(null); sqSumKey.setData(song.getBytes()); if (sqSumCurs.getSearchKey(sqSumKey, sqSumData, null) == OperationStatus.SUCCESS) { // if song is already in sqSum,N db, add to it String[] sumN = (new String(sqSumData.getData())).split(","); // add the new square sum to the previous and increment N int sum = Integer.parseInt(sumN[0]); int N = Integer.parseInt(sumN[1]); sum += (inputRating - songRating) * (inputRating - songRating); N += 1; String encoded = Integer.toString(sum) + "," + Integer.toString(N); // remove old entry for current song and replace it with the new one sqSumCurs.delete(); sqSumKey.setData(null); sqSumData.setData(null); sqSumKey.setData(song.getBytes()); sqSumData.setData(encoded.getBytes()); sqSumdb.put(null, sqSumKey, sqSumData); } else { // if song in not already in sqSum,N db, create it int sum = (inputRating - songRating) * (inputRating - songRating); int N = 1; String encoded = Integer.toString(sum) + "," + Integer.toString(N); sqSumKey.setData(null); sqSumData.setData(null); sqSumKey.setData(song.getBytes()); sqSumData.setData(encoded.getBytes()); sqSumdb.put(null, sqSumKey, sqSumData); } } } else { System.out.println("ERROR: user " + user + " not in secondary database."); } } } else { return line + " has not been rated by any user."; } // DEBUG // io.debugread(sqSumdb); // calculate distance for each song in, inserting into the top 3 spots as we iterate through String ranked = rank(sqSumdb); return line + ", " + ranked; }
/** * Prints the results obtained by BerkeleyDB * * @throws DatabaseException whenever BerkeleyDB is violateed * @throws FileNotFoundException when .idx files not found or .txt files not found. * @throws ParseException when ParseDouble returns an error. */ private void printResults() throws DatabaseException, FileNotFoundException, ParseException { // System.out.println("Num of indices before pprice rdate constraints: " + indices.size()); if (indices.isEmpty()) { System.out.println("+=-=-=-=-=-=-=-=-=-=-=-=-=+"); System.out.println("No results matching given query."); System.out.println("+=-=-=-=-=-=-=-=-=-=-=-=-=+"); } Integer counter = 0; for (Integer index : indices) { OperationStatus oprStatus; Database std_db = new Database("rw.idx", null, null); Cursor std_cursor = std_db.openCursor(null, null); // Create new cursor object DatabaseEntry key = new DatabaseEntry(); DatabaseEntry data = new DatabaseEntry(); Product product = new Product(); Review review = new Review(); String searchkey = index.toString().toLowerCase(); key.setData(searchkey.getBytes()); key.setSize(searchkey.length()); // Returns OperationStatus oprStatus = std_cursor.getSearchKey(key, data, LockMode.DEFAULT); Bill: { if (oprStatus == OperationStatus.SUCCESS) { String s = new String(data.getData()); load_data(product, review, s); /** Filters low priority queue for pprice / rdate processes. */ GenericStack<String> tmplow = new GenericStack<String>(lowpriorities); while (!tmplow.isEmpty()) { String subquery = tmplow.pop(); if (subquery.matches("pprice.*")) { Double value = Double.parseDouble( subquery .replace("pprice", "") .replace(">", "") .replace("=", "") .replace("<", "")); if (product.getPrice().equals("unknown")) break Bill; if (subquery.matches("pprice<.*") && !(Double.parseDouble(product.getPrice()) > value)) continue; else if (subquery.matches("pprice=.*") && !(Double.parseDouble(product.getPrice()) == value)) continue; else if (subquery.matches("pprice>.*") && !(Double.parseDouble(product.getPrice()) < value)) continue; else break Bill; } else if (subquery.matches("rdate.*")) { String comparator = subquery.substring(5, 6); DateFormat df = new SimpleDateFormat("yyyy/MM/dd hh:mm:ss"); Date valuedate = df.parse(subquery.substring(6) + " 00:00:00"); long valuedatedoesntmatataer = (valuedate.getTime() / 1000) - 25200; // delay set by 7hours - timezone difference. switch (comparator) { case "<": if (!(Long.parseLong(review.getTime()) < valuedatedoesntmatataer)) { break Bill; } else { break; } case ">": if (!(Long.parseLong(review.getTime()) > valuedatedoesntmatataer)) { break Bill; } else { break; } case "=": if (!(Long.parseLong(review.getTime()) == valuedatedoesntmatataer)) { break Bill; } else { break; } default: break Bill; } } } // System.out.print(" "+ index +" "); product.print(); review.print(); counter++; } std_cursor.close(); std_db.close(); } } System.out.println("+=-=-=-=-=-=-=-=-=-=-=-=-=+"); System.out.println("Total records found: " + counter); System.out.println("+=-=-=-=-=-=-=-=-=-=-=-=-=+"); }
protected int untypedCount(byte[] k) { EvictorI.DeactivateController deactivateController = _store.evictor().deactivateController(); deactivateController.lock(); try { com.sleepycat.db.DatabaseEntry key = new com.sleepycat.db.DatabaseEntry(k); // // When we have a custom-comparison function, Berkeley DB returns // the key on-disk (when it finds one). We disable this behavior: // (ref Oracle SR 5925672.992) // // In DB > 5.1.x we can not set DB_DBT_PARTIAL in the key Dbt when calling // getSearchKey. // if (com.sleepycat.db.Environment.getVersionMajor() < 5 || (com.sleepycat.db.Environment.getVersionMajor() == 5 && com.sleepycat.db.Environment.getVersionMinor() <= 1)) { key.setPartial(true); } com.sleepycat.db.DatabaseEntry value = new com.sleepycat.db.DatabaseEntry(); // // dlen is 0, so we should not retrieve any value // value.setPartial(true); TransactionI transaction = _store.evictor().beforeQuery(); com.sleepycat.db.Transaction tx = transaction == null ? null : transaction.dbTxn(); for (; ; ) { com.sleepycat.db.Cursor dbc = null; try { dbc = _db.openCursor(tx, null); if (dbc.getSearchKey(key, value, null) == com.sleepycat.db.OperationStatus.SUCCESS) { return dbc.count(); } else { return 0; } } catch (com.sleepycat.db.DeadlockException dx) { if (_store.evictor().deadlockWarning()) { _store .communicator() .getLogger() .warning( "Deadlock in Freeze.Index.untypedCount while " + "iterating over Db \"" + _store.evictor().filename() + "/" + _dbName + "\""); } if (tx != null) { throw new DeadlockException( _store.evictor().errorPrefix() + "Db.cursor: " + dx.getMessage(), transaction, dx); } // // Otherwise retry // } catch (com.sleepycat.db.DatabaseException dx) { throw new DatabaseException( _store.evictor().errorPrefix() + "Db.cursor: " + dx.getMessage(), dx); } finally { if (dbc != null) { try { dbc.close(); } catch (com.sleepycat.db.DeadlockException dx) { if (tx != null) { throw new DeadlockException( _store.evictor().errorPrefix() + "Db.cursor: " + dx.getMessage(), transaction, dx); } } catch (com.sleepycat.db.DatabaseException dx) { // // Ignored // } } } } } finally { deactivateController.unlock(); } }
// // XXX Figure out the appropriate way to pick out IDs. // int txn() { Cursor acurs = null; Cursor bcurs = null; Cursor hcurs = null; Cursor tcurs = null; Transaction t = null; Defrec rec = new Defrec(); Histrec hrec = new Histrec(); int account, branch, teller; DatabaseEntry d_dbt = new DatabaseEntry(); DatabaseEntry d_histdbt = new DatabaseEntry(); DatabaseEntry k_dbt = new DatabaseEntry(); DatabaseEntry k_histdbt = new DatabaseEntry(); account = TpcbExample.this.random_id(TpcbExample.ACCOUNT); branch = TpcbExample.this.random_id(TpcbExample.BRANCH); teller = TpcbExample.this.random_id(TpcbExample.TELLER); // The history key will not actually be retrieved, // but it does need to be set to something. byte[] hist_key = new byte[4]; k_histdbt.setData(hist_key); k_histdbt.setSize(4 /* == sizeof(int)*/); byte[] key_bytes = new byte[4]; k_dbt.setData(key_bytes); k_dbt.setSize(4 /* == sizeof(int)*/); d_dbt.setData(rec.data); d_dbt.setUserBuffer(rec.length(), true); hrec.set_aid(account); hrec.set_bid(branch); hrec.set_tid(teller); hrec.set_amount(10); // Request 0 bytes since we're just positioning. d_histdbt.setPartial(0, 0, true); // START PER-TRANSACTION TIMING. // // Technically, TPCB requires a limit on response time, you only // get to count transactions that complete within 2 seconds. // That's not an issue for this sample application -- regardless, // here's where the transaction begins. try { t = dbenv.beginTransaction(null, null); acurs = adb.openCursor(t, null); bcurs = bdb.openCursor(t, null); tcurs = tdb.openCursor(t, null); hcurs = hdb.openCursor(t, null); // Account record k_dbt.setRecordNumber(account); if (acurs.getSearchKey(k_dbt, d_dbt, null) != OperationStatus.SUCCESS) throw new Exception("acurs get failed"); rec.set_balance(rec.get_balance() + 10); acurs.putCurrent(d_dbt); // Branch record k_dbt.setRecordNumber(branch); if (bcurs.getSearchKey(k_dbt, d_dbt, null) != OperationStatus.SUCCESS) throw new Exception("bcurs get failed"); rec.set_balance(rec.get_balance() + 10); bcurs.putCurrent(d_dbt); // Teller record k_dbt.setRecordNumber(teller); if (tcurs.getSearchKey(k_dbt, d_dbt, null) != OperationStatus.SUCCESS) throw new Exception("ccurs get failed"); rec.set_balance(rec.get_balance() + 10); tcurs.putCurrent(d_dbt); // History record d_histdbt.setPartial(0, 0, false); d_histdbt.setData(hrec.data); d_histdbt.setUserBuffer(hrec.length(), true); if (hdb.append(t, k_histdbt, d_histdbt) != OperationStatus.SUCCESS) throw new DatabaseException("put failed"); acurs.close(); acurs = null; bcurs.close(); bcurs = null; tcurs.close(); tcurs = null; hcurs.close(); hcurs = null; // null out t in advance; if the commit fails, // we don't want to abort it in the catch clause. Transaction tmptxn = t; t = null; tmptxn.commit(); // END TIMING return (0); } catch (Exception e) { try { if (acurs != null) acurs.close(); if (bcurs != null) bcurs.close(); if (tcurs != null) tcurs.close(); if (hcurs != null) hcurs.close(); if (t != null) t.abort(); } catch (DatabaseException dbe) { // not much we can do here. } if (TpcbExample.this.verbose) { System.out.println( "Transaction A=" + String.valueOf(account) + " B=" + String.valueOf(branch) + " T=" + String.valueOf(teller) + " failed"); System.out.println("Reason: " + e.toString()); } return (-1); } }