public void assertEquals(SPO[] expected, SPO[] actual) { assertEquals(null,expected,actual); }
public void assertEquals(SPO expected, SPO actual) { assertEquals(null,expected,actual); }
public void assertEquals(SPO expected, SPO actual) { assertEquals(null,expected,actual); }
public void assertEquals(SPO[] expected, SPO[] actual) { assertEquals(null,expected,actual); }
public void assertEquals(SPO expected, SPO actual) { assertEquals(null,expected,actual); }
public void assertEquals(SPO[] expected, SPO[] actual) { assertEquals(null,expected,actual); }
assertEquals(msg + "length differs.", expected.length, actual.length); assertEquals(expected[i], actual[i]);
assertEquals(msg + "length differs.", expected.length, actual.length); assertEquals(expected[i], actual[i]);
/** * Validates that the same statements are found in each of the statement * indices. */ static public void assertStatementIndicesConsistent( final AbstractTripleStore db, final int maxerrors) { if (log.isInfoEnabled()) log.info("Verifying statement indices"); final AtomicInteger nerrs = new AtomicInteger(0); final int from, to; if (db.getSPOKeyArity() == 3) { from = SPOKeyOrder.FIRST_TRIPLE_INDEX; to = SPOKeyOrder.LAST_TRIPLE_INDEX; } else { from = SPOKeyOrder.FIRST_QUAD_INDEX; to = SPOKeyOrder.LAST_QUAD_INDEX; } for (int i = from; i <= to; i++) { for (int j = from; j <= to; j++) { if (i <= j) { // Just compare the upper diagonal. continue; } assertSameStatements(db, SPOKeyOrder.valueOf(i), SPOKeyOrder.valueOf(j), nerrs, maxerrors); } } assertEquals(0, nerrs.get()); }
/** * Validates that the same statements are found in each of the statement * indices. */ static public void assertStatementIndicesConsistent( final AbstractTripleStore db, final int maxerrors) { if (log.isInfoEnabled()) log.info("Verifying statement indices"); final AtomicInteger nerrs = new AtomicInteger(0); final int from, to; if (db.getSPOKeyArity() == 3) { from = SPOKeyOrder.FIRST_TRIPLE_INDEX; to = SPOKeyOrder.LAST_TRIPLE_INDEX; } else { from = SPOKeyOrder.FIRST_QUAD_INDEX; to = SPOKeyOrder.LAST_QUAD_INDEX; } for (int i = from; i <= to; i++) { for (int j = from; j <= to; j++) { if (i <= j) { // Just compare the upper diagonal. continue; } assertSameStatements(db, SPOKeyOrder.valueOf(i), SPOKeyOrder.valueOf(j), nerrs, maxerrors); } } assertEquals(0, nerrs.get()); }
if (expectedType != actualType) { assertEquals("expected=" + expectedSPO + ",actual=" + actualSPO, expectedType, actualType);
if (expectedType != actualType) { assertEquals("expected=" + expectedSPO + ",actual=" + actualSPO, expectedType, actualType);
assertEquals(msg + "length differs.", expected.length, actual.length); assertEquals(expected[i], actual[i]);
/** * Validates that the same statements are found in each of the statement * indices. */ static public void assertStatementIndicesConsistent( final AbstractTripleStore db, final int maxerrors) { if (log.isInfoEnabled()) log.info("Verifying statement indices"); final AtomicInteger nerrs = new AtomicInteger(0); final int from, to; if (db.getSPOKeyArity() == 3) { from = SPOKeyOrder.FIRST_TRIPLE_INDEX; to = SPOKeyOrder.LAST_TRIPLE_INDEX; } else { from = SPOKeyOrder.FIRST_QUAD_INDEX; to = SPOKeyOrder.LAST_QUAD_INDEX; } for (int i = from; i <= to; i++) { for (int j = from; j <= to; j++) { if (i <= j) { // Just compare the upper diagonal. continue; } assertSameStatements(db, SPOKeyOrder.valueOf(i), SPOKeyOrder.valueOf(j), nerrs, maxerrors); } } assertEquals(0, nerrs.get()); }
if (expectedType != actualType) { assertEquals("expected=" + expectedSPO + ",actual=" + actualSPO, expectedType, actualType);
final long rc2 = id2t.rangeCount(); assertEquals("lexicon range counts: t2id=" + rc1 + ", id2t=" + rc2, rc1, rc2);
final long rc2 = id2t.rangeCount(); assertEquals("lexicon range counts: t2id=" + rc1 + ", id2t=" + rc2, rc1, rc2);
final long rc2 = id2t.rangeCount(); assertEquals("lexicon range counts: t2id=" + rc1 + ", id2t=" + rc2, rc1, rc2);