/** Tests the prefix scanning interface. */ public void testScanPrefix() throws StorageException { List<String> keys = Arrays.asList("/root/foo", "/root/bar", "/root/baz", "/some/other/file"); for (String s : keys) { store.put(StringUtils.stringToBytes(s), new byte[] {}); } // well-known prefix store.scan(StringUtils.stringToBytes("/roo"), callback); checkSubsetAndClear(3, keys, callback.keys); // invalid prefix store.scan(StringUtils.stringToBytes("inv"), callback); checkSubsetAndClear(0, keys, callback.keys); // empty prefix store.scan(new byte[] {}, callback); checkSubsetAndClear(keys.size(), keys, callback.keys); }
/** Tests scanning for multiple prefixes. */ public void testScanPrefixMultiple() throws StorageException { List<String> keys = Arrays.asList( "/root/foo", "/root/bar", "/root/baz", "/some/other/file", "/a/different/file"); for (String s : keys) { store.put(StringUtils.stringToBytes(s), new byte[] {}); } // well-known prefix store.scan(Arrays.asList(StringUtils.stringToBytes("/roo")), callback); checkSubsetAndClear(3, keys, callback.keys); // overlapping prefix store.scan( Arrays.asList(StringUtils.stringToBytes("/roo"), StringUtils.stringToBytes("/root/f")), callback); checkSubsetAndClear(3, keys, callback.keys); // no prefixes store.scan(new ArrayList<byte[]>(), callback); checkSubsetAndClear(0, keys, callback.keys); // multiple store.scan( Arrays.asList(StringUtils.stringToBytes("/roo"), StringUtils.stringToBytes("/a/di")), callback); checkSubsetAndClear(4, keys, callback.keys); }
/** Tests the range scanning interface. */ public void testScanRange() throws StorageException { // space makes first key appear before others List<String> keys = Arrays.asList(StringUtils.SPACE + "first", "aab", "aac", "abc", "aaa", "aaaa"); for (String s : keys) { store.put(StringUtils.stringToBytes(s), new byte[] {}); } store.scan(StringUtils.stringToBytes("aaa"), StringUtils.stringToBytes("aaa"), callback); assertEquals(0, callback.keys.size()); callback.keys.clear(); store.scan(StringUtils.stringToBytes("aaa"), StringUtils.stringToBytes("aaab"), callback); assertEquals( new HashSet<String>(Arrays.asList("aaa", "aaaa")), new HashSet<String>(callback.keys)); callback.keys.clear(); store.scan(StringUtils.stringToBytes("aabq"), null, callback); assertEquals( new HashSet<String>(Arrays.asList("aac", "abc")), new HashSet<String>(callback.keys)); }
/** * Base class for tests for the various implementations of {@link IStorageSystem} and {@link * IStore}. * * @author $Author: heinemann $ * @version $Rev: 46842 $ @ConQAT.Rating GREEN Hash: F2074286F417A89B49F62B7C0E9450A1 */ public abstract class StorageSystemTestBase extends CCSMTestCaseBase { /** Default name of the store used. */ private static final String STORE = "test"; /** A default key used during testing. */ protected static final byte[] KEY = StringUtils.stringToBytes("my_key"); /** A default value used during testing. */ protected static final byte[] VALUE = StringUtils.stringToBytes("my_value"); /** The directory where the data is persisted. Initialized in {@link #setUp()} */ protected File baseDir; /** * The storage system under test. This is created and closed in {@link #setUp()} and {@link * #tearDown()}. */ protected IStorageSystem storageSystem; /** The store used. This is created and closed in {@link #setUp()} and {@link #tearDown()}. */ protected IStore store; /** * A {@link CollectingCallBack}, as it is used by many of the tests. This is recreated each time * in {@link #setUp()}. */ private CollectingCallBack callback; /** {@inheritDoc} */ @Override protected void setUp() throws Exception { super.setUp(); baseDir = new File(getTmpDirectory(), getClass().getSimpleName()); FileSystemUtils.ensureDirectoryExists(baseDir); FileSystemUtils.deleteRecursively(baseDir); FileSystemUtils.ensureDirectoryExists(baseDir); storageSystem = openStorage(baseDir); store = storageSystem.openStore(STORE); callback = new CollectingCallBack(); } /** {@inheritDoc} */ @Override protected void tearDown() throws Exception { if (storageSystem != null) { storageSystem.close(); } super.tearDown(); } /** Template method used for opening the */ protected abstract IStorageSystem openStorage(File baseDir) throws StorageException; /** Tests the very basic set/get interface. */ public void testSetGet() throws StorageException { // key does not exist in empty store assertNull(store.get(KEY)); // put affects result of get store.put(KEY, VALUE); assertTrue(Arrays.equals(VALUE, store.get(KEY))); // other keys do not affect result of get store.put(new byte[] {7, 8, 9}, new byte[] {17, 18, 19}); assertTrue(Arrays.equals(VALUE, store.get(KEY))); } /** Tests removal of elements. */ public void testRemoveElement() throws StorageException { store.put(KEY, VALUE); assertTrue(Arrays.equals(VALUE, store.get(KEY))); store.remove(KEY); assertNull(store.get(KEY)); } /** Tests whether different stores are really independent. */ public void testIndependentStores() throws StorageException { IStore store2 = storageSystem.openStore("other"); store.put(KEY, VALUE); assertTrue(Arrays.equals(VALUE, store.get(KEY))); assertNull(store2.get(KEY)); } /** Tests whether data is really lost during deletion of store. */ public void testDeleteStore() throws StorageException { store.put(KEY, VALUE); assertTrue(Arrays.equals(VALUE, store.get(KEY))); storageSystem.removeStore(STORE); store = storageSystem.openStore(STORE); assertNull(store.get(KEY)); } /** Tests whether persistence between open/close works. */ public void testPersistence() throws StorageException { store.put(KEY, VALUE); assertTrue(Arrays.equals(VALUE, store.get(KEY))); storageSystem.close(); storageSystem = openStorage(baseDir); store = storageSystem.openStore(STORE); assertTrue(Arrays.equals(VALUE, store.get(KEY))); } /** Tests the range scanning interface. */ public void testScanRange() throws StorageException { // space makes first key appear before others List<String> keys = Arrays.asList(StringUtils.SPACE + "first", "aab", "aac", "abc", "aaa", "aaaa"); for (String s : keys) { store.put(StringUtils.stringToBytes(s), new byte[] {}); } store.scan(StringUtils.stringToBytes("aaa"), StringUtils.stringToBytes("aaa"), callback); assertEquals(0, callback.keys.size()); callback.keys.clear(); store.scan(StringUtils.stringToBytes("aaa"), StringUtils.stringToBytes("aaab"), callback); assertEquals( new HashSet<String>(Arrays.asList("aaa", "aaaa")), new HashSet<String>(callback.keys)); callback.keys.clear(); store.scan(StringUtils.stringToBytes("aabq"), null, callback); assertEquals( new HashSet<String>(Arrays.asList("aac", "abc")), new HashSet<String>(callback.keys)); } /** Tests the prefix scanning interface. */ public void testScanPrefix() throws StorageException { List<String> keys = Arrays.asList("/root/foo", "/root/bar", "/root/baz", "/some/other/file"); for (String s : keys) { store.put(StringUtils.stringToBytes(s), new byte[] {}); } // well-known prefix store.scan(StringUtils.stringToBytes("/roo"), callback); checkSubsetAndClear(3, keys, callback.keys); // invalid prefix store.scan(StringUtils.stringToBytes("inv"), callback); checkSubsetAndClear(0, keys, callback.keys); // empty prefix store.scan(new byte[] {}, callback); checkSubsetAndClear(keys.size(), keys, callback.keys); } /** Tests the corner case in prefix scanning interface. */ public void testScanPrefixCornerCase() throws StorageException { byte[] prefix = {17, 18, 19, (byte) 0xff}; store.put(prefix, prefix); CollectingCallBack callback = new CollectingCallBack(); store.scan(prefix, callback); assertEquals(1, callback.keys.size()); } /** Tests scanning for multiple prefixes. */ public void testScanPrefixMultiple() throws StorageException { List<String> keys = Arrays.asList( "/root/foo", "/root/bar", "/root/baz", "/some/other/file", "/a/different/file"); for (String s : keys) { store.put(StringUtils.stringToBytes(s), new byte[] {}); } // well-known prefix store.scan(Arrays.asList(StringUtils.stringToBytes("/roo")), callback); checkSubsetAndClear(3, keys, callback.keys); // overlapping prefix store.scan( Arrays.asList(StringUtils.stringToBytes("/roo"), StringUtils.stringToBytes("/root/f")), callback); checkSubsetAndClear(3, keys, callback.keys); // no prefixes store.scan(new ArrayList<byte[]>(), callback); checkSubsetAndClear(0, keys, callback.keys); // multiple store.scan( Arrays.asList(StringUtils.stringToBytes("/roo"), StringUtils.stringToBytes("/a/di")), callback); checkSubsetAndClear(4, keys, callback.keys); } /** Test scanning for keys with prefix. */ public void testScanKeysPrefix() throws StorageException { store.put(new byte[] {1}, new byte[] {1}); store.scanKeys(new byte[] {1}, callback); assertEquals(1, callback.keys.size()); } /** Test scanning for keys with begin and end. */ public void testScanKeysBeginEnd() throws StorageException { store.put(new byte[] {1}, new byte[] {1}); store.put(new byte[] {2}, new byte[] {2}); store.put(new byte[] {3}, new byte[] {3}); store.put(new byte[] {4}, new byte[] {1}); store.scanKeys(new byte[] {2}, new byte[] {4}, callback); assertEquals(2, callback.keys.size()); } /** Test for multi-get and set. */ public void testSetGetMultiple() throws StorageException { PairList<byte[], byte[]> entries = new PairList<byte[], byte[]>(); entries.add(new byte[] {1}, new byte[] {1}); entries.add(new byte[] {2}, new byte[] {2}); store.put(entries); List<byte[]> values = store.get(Arrays.asList(new byte[] {1}, new byte[] {3}, new byte[] {2})); assertEquals(3, values.size()); assertTrue(Arrays.equals(new byte[] {1}, values.get(0))); assertNull(values.get(1)); assertTrue(Arrays.equals(new byte[] {2}, values.get(2))); store.remove(entries.extractFirstList()); store.scan(new byte[] {}, callback); assertEquals(0, callback.keys.size()); } /** * Checks whether the given set is a subset of the superset of given size. Afterwards the subset * is cleared. While we use set semantics, the parameters use lists as we are also interested in * spurious duplicates. */ private void checkSubsetAndClear(int size, List<String> superSet, List<String> subSet) { assertEquals(size, subSet.size()); assertTrue(superSet.containsAll(subSet)); subSet.clear(); } /** Callback used for testing the scanning interface. */ public static class CollectingCallBack implements IKeyValueCallback { /** Set to store the keys read. */ public final List<String> keys = new ArrayList<String>(); /** {@inheritDoc} */ @Override public void callback(byte[] key, byte[] value) { synchronized (keys) { keys.add(StringUtils.bytesToString(key)); } } } }
/** {@inheritDoc} */ @Override public void callback(byte[] key, byte[] value) { synchronized (keys) { keys.add(StringUtils.bytesToString(key)); } }
/** * For a given elment find the root of the tree, start JavaDoc processing for the whole tree and * cache all results. * * @param element any Java element of an tree */ private void cache(IJavaElement element) throws ConQATException { IResource rootNode = ResourceTraversalUtils.returnRoot(element); Context context = new Context(); PrintWriter errorWriter = new PrintWriter(new Stream2LoggerAdapter(LOGGER, Level.DEBUG, "JavaDoc Error")); PrintWriter warningWriter = new PrintWriter(new Stream2LoggerAdapter(LOGGER, Level.DEBUG, "JavaDoc Warning")); // do not store info messages PrintWriter infoWriter = new PrintWriter(new NullOutputStream()); // This is correct, as the messager attaches itself to the context. new SimpleMessager(context, errorWriter, warningWriter, infoWriter); JavadocTool tool = JavadocTool.make0(context); ModifierFilter showAccess = new ModifierFilter(ModifierFilter.ALL_ACCESS); String encoding = determineEncoding(rootNode); String docLocale = StringUtils.EMPTY_STRING; boolean breakiterator = false; ListBuffer<String[]> options = new ListBuffer<String[]>(); ListBuffer<String> includedElements = addAllChildren(rootNode); boolean docClasses = false; ListBuffer<String> subPackages = new ListBuffer<String>(); ListBuffer<String> excludedPackages = new ListBuffer<String>(); boolean quiet = false; try { RootDocImpl rootDoc = tool.getRootDocImpl( docLocale, encoding, showAccess, includedElements.toList(), options.toList(), breakiterator, subPackages.toList(), excludedPackages.toList(), docClasses, false, quiet); if (rootDoc == null) { throw new ConQATException("Could not analyze JavaDoc for " + rootNode); } Map<String, IJavaResource> classLookup = TraversalUtils.createIdToNodeMap((IJavaResource) rootNode); ClassDoc[] classes = rootDoc.classes(); for (ClassDoc doc : classes) { IJavaResource tmpElement = classLookup.get(doc.qualifiedName()); if (tmpElement instanceof IJavaElement) { cache.put(((IJavaElement) tmpElement).getUniformPath(), doc); } } } catch (Throwable ex) { // The dreaded JavaDoc implementation may throw all kinds of stuff, // including Errors. Hence, we catch throwable here. Additionally, // we minimally support debugging by extracting a somewhat // reasonable message. String message = ex.getMessage(); if (message == null) { message = ex.getClass().getName(); message += StringUtils.obtainStackTrace(ex); } throw new ConQATException(message, ex); } finally { errorWriter.close(); warningWriter.close(); infoWriter.close(); } }