public void testLeadingWildcardType() throws Exception {
QueryParserWrapper qp = getParser(null);
qp.setAllowLeadingWildcard(true);
assertEquals(WildcardQuery.class, qp.parse("t*erm*").getClass());
assertEquals(WildcardQuery.class, qp.parse("?term*").getClass());
assertEquals(WildcardQuery.class, qp.parse("*term*").getClass());
}
/** This test differs from TestPrecedenceQueryParser */
public void testPrecedence() throws Exception {
QueryParserWrapper qp = new QueryParserWrapper("field", new WhitespaceAnalyzer());
Query query1 = qp.parse("A AND B OR C AND D");
Query query2 = qp.parse("+A +B +C +D");
assertEquals(query1, query2);
}
public void testMatchAllDocs() throws Exception {
QueryParserWrapper qp = new QueryParserWrapper("field", new WhitespaceAnalyzer());
assertEquals(new MatchAllDocsQuery(), qp.parse("*:*"));
assertEquals(new MatchAllDocsQuery(), qp.parse("(*:*)"));
BooleanQuery bq = (BooleanQuery) qp.parse("+*:* -*:*");
assertTrue(bq.getClauses()[0].getQuery() instanceof MatchAllDocsQuery);
assertTrue(bq.getClauses()[1].getQuery() instanceof MatchAllDocsQuery);
}
public void testPositionIncrement() throws Exception {
boolean dflt = StopFilter.getEnablePositionIncrementsDefault();
StopFilter.setEnablePositionIncrementsDefault(true);
try {
QueryParserWrapper qp =
new QueryParserWrapper("a", new StopAnalyzer(new String[] {"the", "in", "are", "this"}));
qp.setEnablePositionIncrements(true);
String qtxt = "\"the words in poisitions pos02578 are stopped in this phrasequery\"";
// 0 2 5 7 8
int expectedPositions[] = {1, 3, 4, 6, 9};
PhraseQuery pq = (PhraseQuery) qp.parse(qtxt);
// System.out.println("Query text: "+qtxt);
// System.out.println("Result: "+pq);
Term t[] = pq.getTerms();
int pos[] = pq.getPositions();
for (int i = 0; i < t.length; i++) {
// System.out.println(i+". "+t[i]+" pos: "+pos[i]);
assertEquals(
"term " + i + " = " + t[i] + " has wrong term-position!", expectedPositions[i], pos[i]);
}
} finally {
StopFilter.setEnablePositionIncrementsDefault(dflt);
}
}
public void assertWildcardQueryEquals(String query, String result) throws Exception {
QueryParserWrapper qp = getParser(null);
Query q = qp.parse(query);
String s = q.toString("field");
if (!s.equals(result)) {
fail("WildcardQuery /" + query + "/ yielded /" + s + "/, expecting /" + result + "/");
}
}
public void assertQueryEquals(QueryParserWrapper qp, String field, String query, String result)
throws Exception {
Query q = qp.parse(query);
String s = q.toString(field);
if (!s.equals(result)) {
fail("Query /" + query + "/ yielded /" + s + "/, expecting /" + result + "/");
}
}
private void assertHits(int expected, String query, IndexSearcher is)
throws ParseException, IOException {
QueryParserWrapper qp = new QueryParserWrapper("date", new WhitespaceAnalyzer());
qp.setLocale(Locale.ENGLISH);
Query q = qp.parse(query);
ScoreDoc[] hits = is.search(q, null, 1000).scoreDocs;
assertEquals(expected, hits.length);
}
public void testBooleanQuery() throws Exception {
BooleanQuery.setMaxClauseCount(2);
try {
QueryParserWrapper qp = new QueryParserWrapper("field", new WhitespaceAnalyzer());
qp.parse("one two three");
fail("ParseException expected due to too many boolean clauses");
} catch (ParseException expected) {
// too many boolean clauses, so ParseException is expected
}
}
public void testFarsiRangeCollating() throws Exception {
RAMDirectory ramDir = new RAMDirectory();
IndexWriter iw =
new IndexWriter(ramDir, new WhitespaceAnalyzer(), true, IndexWriter.MaxFieldLength.LIMITED);
Document doc = new Document();
doc.add(new Field("content", "\u0633\u0627\u0628", Field.Store.YES, Field.Index.UN_TOKENIZED));
iw.addDocument(doc);
iw.close();
IndexSearcher is = new IndexSearcher(ramDir);
QueryParserWrapper qp = new QueryParserWrapper("content", new WhitespaceAnalyzer());
// Neither Java 1.4.2 nor 1.5.0 has Farsi Locale collation available in
// RuleBasedCollator. However, the Arabic Locale seems to order the Farsi
// characters properly.
Collator c = Collator.getInstance(new Locale("ar"));
qp.setRangeCollator(c);
// Unicode order would include U+0633 in [ U+062F - U+0698 ], but Farsi
// orders the U+0698 character before the U+0633 character, so the single
// index Term below should NOT be returned by a ConstantScoreRangeQuery
// with a Farsi Collator (or an Arabic one for the case when Farsi is not
// supported).
// Test ConstantScoreRangeQuery
qp.setMultiTermRewriteMethod(MultiTermQuery.CONSTANT_SCORE_FILTER_REWRITE);
ScoreDoc[] result = is.search(qp.parse("[ \u062F TO \u0698 ]"), null, 1000).scoreDocs;
assertEquals("The index Term should not be included.", 0, result.length);
result = is.search(qp.parse("[ \u0633 TO \u0638 ]"), null, 1000).scoreDocs;
assertEquals("The index Term should be included.", 1, result.length);
// Test RangeQuery
qp.setMultiTermRewriteMethod(MultiTermQuery.SCORING_BOOLEAN_QUERY_REWRITE);
result = is.search(qp.parse("[ \u062F TO \u0698 ]"), null, 1000).scoreDocs;
assertEquals("The index Term should not be included.", 0, result.length);
result = is.search(qp.parse("[ \u0633 TO \u0638 ]"), null, 1000).scoreDocs;
assertEquals("The index Term should be included.", 1, result.length);
is.close();
}
public void testStopwords() throws Exception {
QueryParserWrapper qp =
new QueryParserWrapper("a", new StopAnalyzer(new String[] {"the", "foo"}));
Query result = qp.parse("a:the OR a:foo");
assertNotNull("result is null and it shouldn't be", result);
assertTrue("result is not a BooleanQuery", result instanceof BooleanQuery);
assertTrue(
((BooleanQuery) result).clauses().size() + " does not equal: " + 0,
((BooleanQuery) result).clauses().size() == 0);
result = qp.parse("a:woo OR a:the");
assertNotNull("result is null and it shouldn't be", result);
assertTrue("result is not a TermQuery", result instanceof TermQuery);
result = qp.parse("(fieldX:xxxxx OR fieldy:xxxxxxxx)^2 AND (fieldx:the OR fieldy:foo)");
assertNotNull("result is null and it shouldn't be", result);
assertTrue("result is not a BooleanQuery", result instanceof BooleanQuery);
System.out.println("Result: " + result);
assertTrue(
((BooleanQuery) result).clauses().size() + " does not equal: " + 2,
((BooleanQuery) result).clauses().size() == 2);
}
public void testBoost() throws Exception {
StandardAnalyzer oneStopAnalyzer = new StandardAnalyzer(new String[] {"on"});
QueryParserWrapper qp = new QueryParserWrapper("field", oneStopAnalyzer);
Query q = qp.parse("on^1.0");
assertNotNull(q);
q = qp.parse("\"hello\"^2.0");
assertNotNull(q);
assertEquals(q.getBoost(), (float) 2.0, (float) 0.5);
q = qp.parse("hello^2.0");
assertNotNull(q);
assertEquals(q.getBoost(), (float) 2.0, (float) 0.5);
q = qp.parse("\"on\"^1.0");
assertNotNull(q);
QueryParserWrapper qp2 = new QueryParserWrapper("field", new StandardAnalyzer());
q = qp2.parse("the^3");
// "the" is a stop word so the result is an empty query:
assertNotNull(q);
assertEquals("", q.toString());
assertEquals(1.0f, q.getBoost(), 0.01f);
}
public void assertWildcardQueryEquals(
String query, boolean lowercase, String result, boolean allowLeadingWildcard)
throws Exception {
QueryParserWrapper qp = getParser(null);
qp.setLowercaseExpandedTerms(lowercase);
qp.setAllowLeadingWildcard(allowLeadingWildcard);
Query q = qp.parse(query);
String s = q.toString("field");
if (!s.equals(result)) {
fail("WildcardQuery /" + query + "/ yielded /" + s + "/, expecting /" + result + "/");
}
}
public void testRange() throws Exception {
assertQueryEquals("[ a TO z]", null, "[a TO z]");
assertEquals(
MultiTermQuery.CONSTANT_SCORE_AUTO_REWRITE_DEFAULT,
((TermRangeQuery) getQuery("[ a TO z]", null)).getRewriteMethod());
QueryParserWrapper qp = new QueryParserWrapper("field", new SimpleAnalyzer());
qp.setMultiTermRewriteMethod(MultiTermQuery.SCORING_BOOLEAN_QUERY_REWRITE);
assertEquals(
MultiTermQuery.SCORING_BOOLEAN_QUERY_REWRITE,
((TermRangeQuery) qp.parse("[ a TO z]")).getRewriteMethod());
assertQueryEquals("[ a TO z ]", null, "[a TO z]");
assertQueryEquals("{ a TO z}", null, "{a TO z}");
assertQueryEquals("{ a TO z }", null, "{a TO z}");
assertQueryEquals("{ a TO z }^2.0", null, "{a TO z}^2.0");
assertQueryEquals("[ a TO z] OR bar", null, "[a TO z] bar");
assertQueryEquals("[ a TO z] AND bar", null, "+[a TO z] +bar");
assertQueryEquals("( bar blar { a TO z}) ", null, "bar blar {a TO z}");
assertQueryEquals("gack ( bar blar { a TO z}) ", null, "gack (bar blar {a TO z})");
}
public Query getQueryDOA(String query, Analyzer a) throws Exception {
if (a == null) a = new SimpleAnalyzer();
QueryParserWrapper qp = new QueryParserWrapper("field", a);
qp.setDefaultOperator(QueryParserWrapper.AND_OPERATOR);
return qp.parse(query);
}
public Query getQueryAllowLeadingWildcard(String query, Analyzer a) throws Exception {
QueryParserWrapper parser = getParser(a);
parser.setAllowLeadingWildcard(true);
return parser.parse(query);
}