-
- public void testGermanMetadata() throws IOException {
- final RandomAccessFile raf = new RandomAccessFile("testdata/de-en.quickdic", "r");
- final Dictionary dict = new Dictionary(raf);
- final Index deIndex = dict.indices.get(0);
-
- assertEquals("de", deIndex.shortName);
- assertEquals("de->en", deIndex.longName);
-
- raf.close();
- }
-
- public void testGermanIndex() throws IOException {
- final RandomAccessFile raf = new RandomAccessFile("testdata/de-en.dict", "r");
- final Dictionary dict = new Dictionary(raf);
- final Index deIndex = dict.indices.get(0);
-
- for (final Index.IndexEntry indexEntry : deIndex.sortedIndexEntries) {
- System.out.println("testing: " + indexEntry.token);
- final IndexEntry searchResult = deIndex.findInsertionPoint(indexEntry.token, new AtomicBoolean(
- false));
- assertEquals(indexEntry.token.toLowerCase(), searchResult.token.toLowerCase());
- }
-
- // TODO: maybe if user types capitalization, use it.
- assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("aaac", new AtomicBoolean(false)));
- assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("AAAC", new AtomicBoolean(false)));
- assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("AAAc", new AtomicBoolean(false)));
- assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("aAac", new AtomicBoolean(false)));
-
- // Before the beginning.
- assertSearchResult("40", "40" /* special case */, deIndex.findInsertionPoint("", new AtomicBoolean(false)));
- assertSearchResult("40", "40" /* special case */, deIndex.findInsertionPoint("__", new AtomicBoolean(false)));
-
- // After the end.
- assertSearchResult("Zweckorientiertheit", "zählen", deIndex.findInsertionPoint("ZZZZZ", new AtomicBoolean(false)));
-
- assertSearchResult("ab", "aaac", deIndex.findInsertionPoint("aaaca", new AtomicBoolean(false)));
- assertSearchResult("machen", "machen", deIndex.findInsertionPoint("m", new AtomicBoolean(false)));
- assertSearchResult("machen", "machen", deIndex.findInsertionPoint("macdddd", new AtomicBoolean(false)));
-
-
- assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("ueberprüfe", new AtomicBoolean(false)));
- assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("ueberpruefe", new AtomicBoolean(false)));
-
- assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("ueberpBLEH", new AtomicBoolean(false)));
- assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("überprBLEH", new AtomicBoolean(false)));
-
- assertSearchResult("überprüfen", "überprüfe", deIndex.findInsertionPoint("überprüfeBLEH", new AtomicBoolean(false)));
-
- // Check that search in lowercase works.
- assertSearchResult("Alibi", "Alibi", deIndex.findInsertionPoint("alib", new AtomicBoolean(false)));
- System.out.println(deIndex.findInsertionPoint("alib", new AtomicBoolean(false)).toString());
-
- raf.close();
- }
-
- private void assertSearchResult(final String insertionPoint, final String longestPrefix,
- final IndexEntry actual) {
- assertEquals(insertionPoint, actual.token);
- }
-
- public void testGermanTokenRows() throws IOException {
- final RandomAccessFile raf = new RandomAccessFile("testdata/de-en.quickdic", "r");
- final Dictionary dict = new Dictionary(raf);
- final Index deIndex = dict.indices.get(0);
-
- // Pre-cache a few of these, just to make sure that's working.
- for (int i = 0; i < deIndex.rows.size(); i += 7) {
- deIndex.rows.get(i).getTokenRow(true);
- }
-
- // Do the exhaustive searching.
- TokenRow lastTokenRow = null;
- for (final RowBase row : deIndex.rows) {
- if (row instanceof TokenRow) {
- lastTokenRow = (TokenRow) row;
- }
- assertEquals(lastTokenRow, row.getTokenRow(true));
- }
-
- // Now they're all cached, we shouldn't have to search.
- for (final RowBase row : deIndex.rows) {
- if (row instanceof TokenRow) {
- lastTokenRow = (TokenRow) row;
- }
- // This will break if the Row cache isn't big enough.
- assertEquals(lastTokenRow, row.getTokenRow(false));
- }
-
- raf.close();
- }
-
- public void testGermanSort() {
- final Transliterator normalizer = Transliterator.createFromRules("", Language.de.getDefaultNormalizerRules(), Transliterator.FORWARD);
- assertEquals("aüääss", normalizer.transform("aueAeAEß"));
- final List<String> words = Arrays.asList(
- "er-ben",
- "erben",
- "Erben",
- "Erbse",
- "Erbsen",
- "essen",
- "Essen",
- "Grosformat",
- "Grosformats",
- "Grossformat",
- "Großformat",
- "Grossformats",
- "Großformats",
- "Großpoo",
- "Großpoos",
- "Hörvermögen",
- "Hörweite",
- "hos",
- "Höschen",
- "Hostel",
- "hulle",
- "Hulle",
- "huelle",
- "Huelle",
- "hülle",
- "Hülle",
- "Huellen",
- "Hüllen",
- "Hum"
- );
- final NormalizeComparator comparator = new NormalizeComparator(normalizer, Language.de.getCollator());
- assertEquals(1, comparator.compare("hülle", "huelle"));
- assertEquals(-1, comparator.compare("huelle", "hülle"));
-
- assertEquals(-1, comparator.compare("hülle", "Hülle"));
-
- assertEquals("hülle", normalizer.transform("Hülle"));
- assertEquals("hulle", normalizer.transform("Hulle"));
-
-
- final List<String> sorted = new ArrayList<String>(words);
-// Collections.shuffle(shuffled, new Random(0));
- Collections.sort(sorted, comparator);
- System.out.println(sorted.toString());
- for (int i = 0; i < words.size(); ++i) {
- System.out.println(words.get(i) + "\t" + sorted.get(i));
- assertEquals(words.get(i), sorted.get(i));
- }
- }
-
- public void testEnglishSort() {
- final Transliterator normalizer = Transliterator.createFromRules("", Language.en.getDefaultNormalizerRules(), Transliterator.FORWARD);
-
- final List<String> words = Arrays.asList(
- "pre-print",
- "preppie",
- "preppy",
- "preprocess");
-
- final List<String> sorted = new ArrayList<String>(words);
- final NormalizeComparator comparator = new NormalizeComparator(normalizer, Language.en.getCollator());
- Collections.sort(sorted, comparator);
- for (int i = 0; i < words.size(); ++i) {
- if (i > 0) {
- assertTrue(comparator.compare(words.get(i-1), words.get(i)) < 0);
- }
- System.out.println(words.get(i) + "\t" + sorted.get(i));
- assertEquals(words.get(i), sorted.get(i));
- }
-
- assertTrue(comparator.compare("pre-print", "preppy") < 0);
-
- }
-
- public void testLanguage() {
- assertEquals(Language.de, Language.lookup("de"));
- assertEquals(Language.en, Language.lookup("en"));
- assertEquals("es", Language.lookup("es").getSymbol());
- }
-
- public void testTextNorm() {
- //final Transliterator transliterator = Transliterator.getInstance("Any-Latin; Upper; Lower; 'oe' > 'o'; NFD; [:Nonspacing Mark:] Remove; NFC", Transliterator.FORWARD);
- final Transliterator transliterator = Transliterator.createFromRules("", ":: Any-Latin; :: Upper; :: Lower; 'oe' > 'o'; :: NFD; :: [:Nonspacing Mark:] Remove; :: NFC ;", Transliterator.FORWARD);
- assertEquals("hoschen", transliterator.transliterate("Höschen"));
- assertEquals("hoschen", transliterator.transliterate("Hoeschen"));
- assertEquals("grosspoo", transliterator.transliterate("Großpoo"));
-
- assertEquals("kyanpasu", transliterator.transliterate("キャンパス"));
- assertEquals("alphabetikos katalogos", transliterator.transliterate("Αλφαβητικός Κατάλογος"));
- assertEquals("biologiceskom", transliterator.transliterate("биологическом"));
- }
-
- public void testChemnitz() throws IOException {
- final RandomAccessFile raf = new RandomAccessFile("dictOutputs/de-en_chemnitz.quickdic", "r");
- final Dictionary dict = new Dictionary(raf);
- final Index deIndex = dict.indices.get(0);
-
- assertSearchResult("Höschen", "Hos", deIndex.findInsertionPoint("Hos", new AtomicBoolean(false)));
- assertSearchResult("Höschen", "hos", deIndex.findInsertionPoint("hos", new AtomicBoolean(false)));
-
- raf.close();
- }
+
+ static final String TEST_OUTPUTS = com.hughes.android.dictionary.engine.DictionaryBuilderTest.TEST_OUTPUTS;
+ public static final String OUTPUTS = "data/outputs/";
+
+ @Override
+ protected void setUp() {
+ while (!TransliteratorManager.init(null, null)) {
+ try {
+ Thread.sleep(10);
+ } catch (InterruptedException e) {
+ e.printStackTrace();
+ }
+ }
+ }
+
+ public void testURLFormatting() {
+ }
+
+ public void testEnItWiktionary() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "EN-IT.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index enIndex = dict.indices.get(0);
+
+ final RowBase row = enIndex.rows.get(4);
+ assertEquals("-ical", row.getRawText(false));
+
+ final Index itIndex = dict.indices.get(1);
+ {
+ final List<RowBase> rows = itIndex.multiWordSearch("come mai", Arrays.asList("come", "mai"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.get(0).toString().startsWith("come mai@"));
+ assertTrue(rows.get(0) instanceof TokenRow);
+ assertFalse(((TokenRow) rows.get(0)).getIndexEntry().htmlEntries.isEmpty());
+ }
+
+ {
+ final List<RowBase> rows = itIndex.multiWordSearch("buon g", Arrays.asList("buon", "g"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.get(0).toString().startsWith("buon giorno@"));
+ assertTrue(rows.get(0) instanceof TokenRow);
+ assertFalse(((TokenRow) rows.get(0)).getIndexEntry().htmlEntries.isEmpty());
+ }
+
+ {
+ final IndexEntry searchResult = itIndex.findInsertionPoint("azzurro", new AtomicBoolean(
+ false));
+ HtmlEntry htmlEntry = searchResult.htmlEntries.get(0);
+ System.out.println("azzurro:\n" + htmlEntry.getHtml());
+ }
+
+ raf.close();
+ }
+
+// public void testFr() throws IOException {
+// final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "FR.quickdic", "r");
+// final Dictionary dict = new Dictionary(raf);
+// final Index frIndex = dict.indices.get(0);
+//
+// // Now they're all cached, we shouldn't have to search.
+// for (final IndexEntry indexEntry : frIndex.sortedIndexEntries) {
+// System.out.println(indexEntry.token);
+// }
+//
+// raf.close();
+// }
+
+
+ public void testDeEnWiktionary() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "DE-EN.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+
+ final Index deIndex = dict.indices.get(0);
+
+ {
+ final IndexEntry searchResult = deIndex.findInsertionPoint("rot", new AtomicBoolean(
+ false));
+ HtmlEntry htmlEntry = searchResult.htmlEntries.get(0);
+ System.out.println("rot:\n" + htmlEntry.getHtml());
+ }
+
+ raf.close();
+ }
+
+ public void testGermanMetadata() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(TEST_OUTPUTS + "de-en.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index deIndex = dict.indices.get(0);
+
+ assertEquals("DE", deIndex.shortName);
+ assertEquals("DE->EN", deIndex.longName);
+
+ assertEquals(2, dict.sources.size());
+ assertEquals("chemnitz", dict.sources.get(0).name);
+ assertEquals("dictcc", dict.sources.get(1).name);
+
+ assertEquals("dictcc", dict.pairEntries.get(0).entrySource.name);
+ assertEquals("chemnitz", dict.pairEntries.get(1).entrySource.name);
+
+ raf.close();
+ }
+
+ public void testGermanIndex() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(TEST_OUTPUTS + "de-en.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index deIndex = dict.indices.get(0);
+
+ for (final Index.IndexEntry indexEntry : deIndex.sortedIndexEntries) {
+ System.out.println("testing: " + indexEntry.token);
+ final IndexEntry searchResult = deIndex.findInsertionPoint(indexEntry.token, new AtomicBoolean(
+ false));
+ assertEquals("Looked up: " + indexEntry.token, indexEntry.token.toLowerCase(), searchResult.token.toLowerCase());
+ }
+
+ // TODO: maybe if user types capitalization, use it.
+ assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("aaac", new AtomicBoolean(false)));
+ assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("AAAC", new AtomicBoolean(false)));
+ assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("AAAc", new AtomicBoolean(false)));
+ assertSearchResult("aaac", "aaac", deIndex.findInsertionPoint("aAac", new AtomicBoolean(false)));
+
+ // Before the beginning.
+ assertSearchResult("40", "40" /* special case */, deIndex.findInsertionPoint("", new AtomicBoolean(false)));
+ assertSearchResult("40", "40" /* special case */, deIndex.findInsertionPoint("__", new AtomicBoolean(false)));
+
+ // After the end.
+ assertSearchResult("Zweckorientiertheit", "zählen", deIndex.findInsertionPoint("ZZZZZ", new AtomicBoolean(false)));
+
+ assertSearchResult("ab", "aaac", deIndex.findInsertionPoint("aaaca", new AtomicBoolean(false)));
+ assertSearchResult("machen", "machen", deIndex.findInsertionPoint("m", new AtomicBoolean(false)));
+ assertSearchResult("machen", "machen", deIndex.findInsertionPoint("macdddd", new AtomicBoolean(false)));
+
+
+ assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("ueberprüfe", new AtomicBoolean(false)));
+ assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("ueberpruefe", new AtomicBoolean(false)));
+
+ assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("ueberpBLEH", new AtomicBoolean(false)));
+ assertSearchResult("überprüfe", "überprüfe", deIndex.findInsertionPoint("überprBLEH", new AtomicBoolean(false)));
+
+ assertSearchResult("überprüfen", "überprüfe", deIndex.findInsertionPoint("überprüfeBLEH", new AtomicBoolean(false)));
+
+ // Check that search in lowercase works.
+ assertSearchResult("Alibi", "Alibi", deIndex.findInsertionPoint("alib", new AtomicBoolean(false)));
+ System.out.println(deIndex.findInsertionPoint("alib", new AtomicBoolean(false)));
+
+ raf.close();
+ }
+
+ private void assertSearchResult(final String insertionPoint, final String longestPrefix,
+ final IndexEntry actual) {
+ assertEquals(insertionPoint, actual.token);
+ }
+
+ public void testGermanTokenRows() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(TEST_OUTPUTS + "de-en.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index deIndex = dict.indices.get(0);
+
+ // Pre-cache a few of these, just to make sure that's working.
+ for (int i = 0; i < deIndex.rows.size(); i += 7) {
+ deIndex.rows.get(i).getTokenRow(true);
+ }
+
+ // Do the exhaustive searching.
+ TokenRow lastTokenRow = null;
+ for (final RowBase row : deIndex.rows) {
+ if (row instanceof TokenRow) {
+ lastTokenRow = (TokenRow) row;
+ }
+ assertEquals(lastTokenRow, row.getTokenRow(true));
+ }
+
+ // Now they're all cached, we shouldn't have to search.
+ for (final RowBase row : deIndex.rows) {
+ if (row instanceof TokenRow) {
+ lastTokenRow = (TokenRow) row;
+ }
+ // This will break if the Row cache isn't big enough.
+ assertEquals(lastTokenRow, row.getTokenRow(false));
+ }
+
+ raf.close();
+ }
+
+ public void testChemnitz() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(TEST_OUTPUTS + "de-en.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index deIndex = dict.indices.get(0);
+
+ assertSearchResult("Höschen", "Hos", deIndex.findInsertionPoint("Hos", new AtomicBoolean(false)));
+ assertSearchResult("Höschen", "hos", deIndex.findInsertionPoint("hos", new AtomicBoolean(false)));
+
+ raf.close();
+ }
+
+ public void testMultiSearch() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(TEST_OUTPUTS + "de-en.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index deIndex = dict.indices.get(0);
+
+ {
+ final List<RowBase> rows = deIndex.multiWordSearch("aaa aaab", Arrays.asList("aaa", "aaab"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ }
+
+ raf.close();
+ }
+
+ public void testMultiSearchIt() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "IT.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index index = dict.indices.get(0);
+
+ {
+ final List<RowBase> rows = index.multiWordSearch("fare centro",
+ Arrays.asList("fare", "centro"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.get(0).toString().startsWith("fare centro@"));
+ }
+ }
+
+ public void testMultiSearchDeBig() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "DE-EN.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index enIndex = dict.indices.get(1);
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("train station", Arrays.asList("train", "station"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.get(0).toString().startsWith("train station@"));
+ }
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("a train station", Arrays.asList("a", "train", "station"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertEquals("Bahnhofsuhr {{de-noun|g=f|plural=Bahnhofsuhren}}\tstation clock (at a train station)", rows.get(0).toString());
+ }
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("a station", Arrays.asList("a", "station"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertEquals("Abfahrthalle {en-noun}\tDeparture room of a station.", rows.get(0).toString());
+ }
+
+ {
+ // Should print: Giving up, too many words with prefix: p
+ final List<RowBase> rows = enIndex.multiWordSearch("p eat", Arrays.asList("p", "eat"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.toString().contains("verschlingen; verputzen\tto dispatch (eat)"));
+ }
+
+ {
+ // Should print: Giving up, too many words with prefix: p
+ final List<RowBase> rows = enIndex.multiWordSearch("p p", Arrays.asList("p", "p"), new AtomicBoolean(false));
+ assertTrue(rows.size() >= 1000);
+ }
+
+ {
+ // Should print: Giving up, too many words with prefix: a
+ final List<RowBase> rows = enIndex.multiWordSearch("a a", Arrays.asList("a", "a"), new AtomicBoolean(false));
+ assertTrue(rows.size() >= 1000);
+ }
+
+ {
+ // Should print: Giving up, too many words with prefix: a
+ final List<RowBase> rows = enIndex.multiWordSearch("b ba", Arrays.asList("b", "ba"), new AtomicBoolean(false));
+ assertTrue(rows.size() >= 1000);
+ }
+
+ {
+ // Should print: Giving up, too many words with prefix: a
+ final List<RowBase> rows = enIndex.multiWordSearch("b ba", Arrays.asList("b", "ba"), new AtomicBoolean(false));
+ assertTrue(rows.size() >= 1000);
+ }
+
+ raf.close();
+ }
+
+ public void testMultiSearchBigAF() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "AF-EN.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index enIndex = dict.indices.get(1);
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("pig eats", Arrays.asList("pig", "eats"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertEquals("vark\tpig (someone who overeats or eats rapidly) (noun)", rows.get(0).toString());
+ }
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("pig eat", Arrays.asList("pig", "eat"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertEquals("vark\tpig (someone who overeats or eats rapidly) (noun)", rows.get(0).toString());
+ }
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("pi ea", Arrays.asList("pi", "ea"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.toString().contains("vark\tpig (someone who overeats or eats rapidly) (noun)"));
+ }
+
+ {
+ final List<RowBase> rows = enIndex.multiWordSearch("p eat", Arrays.asList("p", "eat"), new AtomicBoolean(false));
+ System.out.println(CollectionUtil.join(rows, "\n "));
+ assertTrue(rows.toString(), rows.size() > 0);
+ assertTrue(rows.toString().contains("vark\tpig (someone who overeats or eats rapidly) (noun)"));
+ }
+
+
+ raf.close();
+ }
+
+
+ public void testExactSearch() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "EN-cmn.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index cmnIndex = dict.indices.get(1);
+
+ final Random random = new Random(10);
+
+ for (int i = 0; i < 1000; ++i) {
+ final int ii = random.nextInt(cmnIndex.sortedIndexEntries.size());
+ final IndexEntry indexEntry = cmnIndex.sortedIndexEntries.get(ii);
+ final IndexEntry found = cmnIndex.findExact(indexEntry.token);
+ assertNotNull(found);
+ assertEquals(indexEntry.token, found.token);
+ assertEquals(indexEntry, found); // Test of caching....
+ }
+
+ raf.close();
+ }
+
+ public void testThai() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "EN-TH.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index thIndex = dict.indices.get(1);
+
+ final IndexEntry entry = thIndex.findInsertionPoint("ดี", new AtomicBoolean(false));
+ assertEquals("di", entry.token);
+
+ raf.close();
+ }
+
+ public void testNorwegian() throws IOException {
+ final RandomAccessFile raf = new RandomAccessFile(OUTPUTS + "EN-NL.quickdic", "r");
+ final Dictionary dict = new Dictionary(raf.getChannel());
+ final Index nlIndex = dict.indices.get(1);
+
+ IndexEntry entry = nlIndex.findInsertionPoint("Xhosa", new AtomicBoolean(false));
+ assertEquals("Xhosa", entry.token);
+
+ entry = nlIndex.findInsertionPoint("Zyne", new AtomicBoolean(false));
+ assertEquals("Zyne", entry.token);
+
+ raf.close();
+ }