📄 blockiterator.java
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/*- * See the file LICENSE for redistribution information. * * Copyright (c) 2000-2006 * Oracle Corporation. All rights reserved. * * $Id: BlockIterator.java,v 12.3 2006/09/08 20:32:13 bostic Exp $ */package com.sleepycat.collections;import java.util.ListIterator;import java.util.NoSuchElementException;import com.sleepycat.compat.DbCompat;import com.sleepycat.db.DatabaseEntry;import com.sleepycat.db.DatabaseException;import com.sleepycat.db.OperationStatus;import com.sleepycat.util.keyrange.KeyRange;/** * An iterator that does need closing because a cursor is not kept open across * method calls. A cursor is opened to read a block of records at a time and * then closed before the method returns. * * @author Mark Hayes */class BlockIterator implements BaseIterator { private StoredCollection coll; private boolean writeAllowed; /** * Slots for a block of record keys and values. The priKeys array is only * used for secondary databases; otherwise it is set to the keys array. */ private byte[][] keys; private byte[][] priKeys; private byte[][] values; /** * The slot index of the record that would be returned by next(). * nextIndex is always greater or equal to zero. If the next record is not * available, then nextIndex is equal to keys.length or keys[nextIndex] is * null. */ private int nextIndex; /** * The slot index of the record last returned by next() or previous(), or * the record inserted by add(). dataIndex is -1 if the data record is not * available. If greater or equal to zero, the slot at dataIndex is always * non-null. */ private int dataIndex; /** * The iterator data last returned by next() or previous(). This value is * set to null if dataIndex is -1, or if the state of the iterator is such * that set() or remove() cannot be called. For example, after add() this * field is set to null, even though the dataIndex is still valid. */ private Object dataObject; /** * Creates an iterator. */ BlockIterator(StoredCollection coll, boolean writeAllowed, int blockSize) { this.coll = coll; this.writeAllowed = writeAllowed; keys = new byte[blockSize][]; priKeys = coll.isSecondary() ? (new byte[blockSize][]) : keys; values = new byte[blockSize][]; nextIndex = blockSize; dataIndex = -1; dataObject = null; } /** * Copy constructor. */ private BlockIterator(BlockIterator o) { coll = o.coll; writeAllowed = o.writeAllowed; keys = copyArray(o.keys); priKeys = coll.isSecondary() ? copyArray(o.priKeys) : keys; values = copyArray(o.values); nextIndex = o.nextIndex; dataIndex = o.dataIndex; dataObject = o.dataObject; } /** * Copies an array of byte arrays. */ private byte[][] copyArray(byte[][] a) { byte[][] b = new byte[a.length][]; for (int i = 0; i < b.length; i += 1) { if (a[i] != null) { b[i] = KeyRange.copyBytes(a[i]); } } return b; } /** * Returns whether the element at nextIndex is available. */ private boolean isNextAvailable() { return (nextIndex < keys.length) && (keys[nextIndex] != null); } /** * Returns whether the element at nextIndex-1 is available. */ private boolean isPrevAvailable() { return (nextIndex > 0) && (keys[nextIndex - 1] != null); } /** * Returns the record number at the given slot position. */ private int getRecordNumber(int i) { if (coll.view.btreeRecNumDb) { DataCursor cursor = null; try { cursor = new DataCursor(coll.view, false); if (moveCursor(i, cursor)) { return cursor.getCurrentRecordNumber(); } else { throw new IllegalStateException(); } } catch (DatabaseException e) { throw StoredContainer.convertException(e); } finally { closeCursor(cursor); } } else { DatabaseEntry entry = new DatabaseEntry(keys[i]); return DbCompat.getRecordNumber(entry); } } /** * Sets dataObject to the iterator data for the element at dataIndex. */ private void makeDataObject() { int i = dataIndex; DatabaseEntry keyEntry = new DatabaseEntry(keys[i]); DatabaseEntry priKeyEntry = (keys != priKeys) ? (new DatabaseEntry(priKeys[i])) : keyEntry; DatabaseEntry valuesEntry = new DatabaseEntry(values[i]); dataObject = coll.makeIteratorData(this, keyEntry, priKeyEntry, valuesEntry); } /** * Sets all slots to null. */ private void clearSlots() { for (int i = 0; i < keys.length; i += 1) { keys[i] = null; priKeys[i] = null; values[i] = null; } } /** * Sets a given slot using the data in the given cursor. */ private void setSlot(int i, DataCursor cursor) { keys[i] = KeyRange.getByteArray(cursor.getKeyThang()); if (keys != priKeys) { priKeys[i] = KeyRange.getByteArray (cursor.getPrimaryKeyThang()); } values[i] = KeyRange.getByteArray(cursor.getValueThang()); } /** * Inserts an added record at a given slot position and shifts other slots * accordingly. Also adjusts nextIndex and sets dataIndex to -1. */ private void insertSlot(int i, DataCursor cursor) { if (i < keys.length) { for (int j = keys.length - 1; j > i; j -= 1) { /* Shift right. */ keys[j] = keys[j - 1]; priKeys[j] = priKeys[j - 1]; values[j] = values[j - 1]; /* Bump key in recno-renumber database. */ if (coll.view.recNumRenumber && keys[j] != null) { bumpRecordNumber(j); } } nextIndex += 1; } else { if (i != keys.length) { throw new IllegalStateException(); } i -= 1; for (int j = 0; j < i; j += 1) { /* Shift left. */ keys[j] = keys[j + 1]; priKeys[j] = priKeys[j + 1]; values[j] = values[j + 1]; } } setSlot(i, cursor); dataIndex = -1; } /** * Increments the record number key at the given slot. */ private void bumpRecordNumber(int i) { DatabaseEntry entry = new DatabaseEntry(keys[i]); DbCompat.setRecordNumber(entry, DbCompat.getRecordNumber(entry) + 1); keys[i] = entry.getData(); } /** * Deletes the given slot, adjusts nextIndex and sets dataIndex to -1. */ private void deleteSlot(int i) { for (int j = i + 1; j < keys.length; j += 1) { keys[j - 1] = keys[j]; priKeys[j - 1] = priKeys[j]; values[j - 1] = values[j]; } int last = keys.length - 1; keys[last] = null; priKeys[last] = null; values[last] = null; if (nextIndex > i) { nextIndex -= 1; } dataIndex = -1; } /** * Moves the cursor to the key/data at the given slot, and returns false * if the reposition (search) fails. */ private boolean moveCursor(int i, DataCursor cursor) throws DatabaseException { return cursor.repositionExact(keys[i], priKeys[i], values[i], false); } /** * Closes the given cursor if non-null. */ private void closeCursor(DataCursor cursor) { if (cursor != null) { try { cursor.close(); } catch (DatabaseException e) { throw StoredContainer.convertException(e); } } } // --- begin Iterator/ListIterator methods --- public boolean hasNext() { if (isNextAvailable()) { return true; } DataCursor cursor = null; try { cursor = new DataCursor(coll.view, writeAllowed); int prev = nextIndex - 1; boolean found = false; if (keys[prev] == null) { /* Get the first record for an uninitialized iterator. */ OperationStatus status = cursor.getFirst(false); if (status == OperationStatus.SUCCESS) { found = true; nextIndex = 0; } } else { /* Reposition to the last known key/data pair. */ int repos = cursor.repositionRange (keys[prev], priKeys[prev], values[prev], false); if (repos == DataCursor.REPOS_EXACT) { /* * The last known key/data pair was found and will now be * in slot zero. */ found = true; nextIndex = 1; /* The data object is now in slot zero or not available. */ if (dataIndex == prev) { dataIndex = 0; } else { dataIndex = -1; dataObject = null; } } else if (repos == DataCursor.REPOS_NEXT) { /* * The last known key/data pair was not found, but the * following record was found and it will be in slot zero. */ found = true; nextIndex = 0; /* The data object is no longer available. */ dataIndex = -1; dataObject = null; } else { if (repos != DataCursor.REPOS_EOF) { throw new IllegalStateException(); } } } if (found) { /* Clear all slots first in case an exception occurs below. */ clearSlots(); /* Attempt to fill all slots with records. */ int i = 0; boolean done = false; while (!done) { setSlot(i, cursor); i += 1; if (i < keys.length) { OperationStatus status = coll.iterateDuplicates() ? cursor.getNext(false) : cursor.getNextNoDup(false); if (status != OperationStatus.SUCCESS) {⌨️ 快捷键说明
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