public Tuple next() throws NoSuchElementException, TransactionAbortedException, DbException { // some code goes here if (i == null) { throw new NoSuchElementException("iterator is closed"); } if (!i.hasNext()) { throw new NoSuchElementException("end of seq scan"); } return i.next(); }
/** * Create a new TableStats object, that keeps track of statistics on each column of a table * * @param tableid The table over which to compute statistics * @param ioCostPerPage The cost per page of IO. This doesn't differentiate between * sequential-scan IO and disk seeks. */ public TableStats(int tableid, int ioCostPerPage) { // For this function, we use the DbFile for the table in question, // then scan through its tuples and calculate the values that you // to build the histograms. // TODO: Fill out the rest of the constructor. // Feel free to change anything already written, it's only a guideline this.ioCostPerPage = ioCostPerPage; DbFile file = Database.getCatalog().getDbFile(tableid); tupleDesc = file.getTupleDesc(); numPages = ((HeapFile) file).numPages(); numTuples = 0; int numFields = tupleDesc.numFields(); // TODO: what goes here? statistics = new ArrayList<Object>(); for (int i = 0; i < numFields; i++) { if (Type.INT_TYPE.equals(tupleDesc.getFieldType(i))) { statistics.add(new IntStatistics(NUM_HIST_BINS)); } else { statistics.add(new StringHistogram(NUM_HIST_BINS)); } } final DbFileIterator iter = file.iterator(null); try { iter.open(); while (iter.hasNext()) { Tuple t = iter.next(); numTuples++; // TODO: and here? for (int i = 0; i < numFields; i++) { if (Type.INT_TYPE.equals(tupleDesc.getFieldType(i))) { ((IntStatistics) statistics.get(i)).addValue(((IntField) t.getField(i)).getValue()); } else { ((StringHistogram) statistics.get(i)) .addValue(((StringField) t.getField(i)).getValue()); } } } iter.close(); } catch (DbException e) { e.printStackTrace(); } catch (TransactionAbortedException e) { e.printStackTrace(); } }
public boolean hasNext() throws TransactionAbortedException, DbException { // some code goes here if (fileIt == null) { return false; } return fileIt.hasNext(); }
public void close() { // some code goes here if (i != null) { i.close(); i_pos = i; i = null; } }
public void open() throws DbException, TransactionAbortedException { // some code goes here if (i_pos != null) { i = i_pos; } else { Catalog gc = Database.getCatalog(); HeapFile file = (HeapFile) gc.getDbFile(tableid); i = file.iterator(tid); } i.open(); }
public Tuple next() throws NoSuchElementException, TransactionAbortedException, DbException { // some code goes here if (fileIt == null) { throw new NoSuchElementException("No Such Element"); } Tuple temp = fileIt.next(); if (temp == null) { throw new NoSuchElementException("No Next Element"); } else { return temp; } }
@Test public void testIteratorClose() throws Exception { // make more than 1 page. Previous closed iterator would start fetching // from page 1. HeapFile twoPageFile = SystemTestUtil.createRandomHeapFile(2, 520, null, null); DbFileIterator it = twoPageFile.iterator(tid); it.open(); assertTrue(it.hasNext()); it.close(); try { it.next(); fail("expected exception"); } catch (NoSuchElementException e) { } // close twice is harmless it.close(); }
@Test public void testIteratorBasic() throws Exception { HeapFile smallFile = SystemTestUtil.createRandomHeapFile(2, 3, null, null); DbFileIterator it = smallFile.iterator(tid); // Not open yet assertFalse(it.hasNext()); try { it.next(); fail("expected exception"); } catch (NoSuchElementException e) { } it.open(); int count = 0; while (it.hasNext()) { System.out.println(count); assertNotNull(it.next()); count += 1; } assertEquals(3, count); it.close(); }
public void rewind() throws DbException, NoSuchElementException, TransactionAbortedException { dbiter.rewind(); }
public void close() { dbiter.close(); }
public Tuple next() throws NoSuchElementException, TransactionAbortedException, DbException { return dbiter.next(); }
public boolean hasNext() throws TransactionAbortedException, DbException { return dbiter.hasNext(); }
public void open() throws DbException, TransactionAbortedException { dbiter.open(); }
public void rewind() throws DbException, NoSuchElementException, TransactionAbortedException { // some code goes here fileIt.close(); fileIt.open(); }
public void rewind() throws DbException, NoSuchElementException, TransactionAbortedException { // some code goes here i.rewind(); i_pos = null; }
public void open() throws DbException, TransactionAbortedException { // some code goes here fileIt = Database.getCatalog().getDbFile(tableid).iterator(tid); fileIt.open(); }
public static void main(String args[]) throws DbException, TransactionAbortedException, IOException { // convert a file if (args[0].equals("convert")) { try { if (args.length == 3) { HeapFileEncoder.convert( new File(args[1]), new File(args[1].replaceAll(".txt", ".dat")), BufferPool.PAGE_SIZE, Integer.parseInt(args[2])); } else if (args.length == 4) { ArrayList<Type> ts = new ArrayList<Type>(); String[] typeStringAr = args[3].split(","); for (String s : typeStringAr) { if (s.toLowerCase().equals("int")) ts.add(Type.INT_TYPE); else if (s.toLowerCase().equals("string")) ts.add(Type.STRING_TYPE); else { System.out.println("Unknown type " + s); return; } } HeapFileEncoder.convert( new File(args[1]), new File(args[1].replaceAll(".txt", ".dat")), BufferPool.PAGE_SIZE, Integer.parseInt(args[2]), ts.toArray(new Type[0])); } else { System.out.println("Unexpected number of arguments to convert "); } } catch (IOException e) { throw new RuntimeException(e); } } else if (args[0].equals("print")) { File tableFile = new File(args[1]); int columns = Integer.parseInt(args[2]); DbFile table = Utility.openHeapFile(columns, tableFile); TransactionId tid = new TransactionId(); DbFileIterator it = table.iterator(tid); if (null == it) { System.out.println( "Error: method HeapFile.iterator(TransactionId tid) not yet implemented!"); } else { it.open(); while (it.hasNext()) { Tuple t = it.next(); System.out.println(t); } it.close(); } } else if (args[0].equals("parser")) { // Strip the first argument and call the parser String[] newargs = new String[args.length - 1]; for (int i = 1; i < args.length; ++i) { newargs[i - 1] = args[i]; } try { // dynamically load Parser -- if it doesn't exist, print error message Class<?> c = Class.forName("simpledb.Parser"); Class<?> s = String[].class; java.lang.reflect.Method m = c.getMethod("main", s); m.invoke(null, (java.lang.Object) newargs); } catch (ClassNotFoundException cne) { System.out.println( "Class Parser not found -- perhaps you are trying to run the parser as a part of lab1?"); } catch (Exception e) { System.out.println("Error in parser."); e.printStackTrace(); } } else { System.err.println("Unknown command: " + args[0]); System.exit(1); } }
public boolean hasNext() throws TransactionAbortedException, DbException { // some code goes here return i != null && i.hasNext(); }