@Test
public void testParseHexOrDefaultOk() throws Exception {
long i = 0x12;
String s = "0x" + Long.toHexString(i);
int def = 14;
assertEquals(i, ParseLong.parseHexOrDefault(s, def));
}
@Test(timeout = 1000)
public void testSameSourceMultipleIterators() {
TestScheduler scheduler = new TestScheduler();
NbpBlockingObservable<Long> source =
NbpObservable.interval(1, TimeUnit.SECONDS, scheduler).take(10).toBlocking();
Iterable<Long> iter = source.latest();
for (int j = 0; j < 3; j++) {
Iterator<Long> it = iter.iterator();
// only 9 because take(10) will immediately call onCompleted when receiving the 10th item
// which onCompleted will overwrite the previous value
for (int i = 0; i < 9; i++) {
scheduler.advanceTimeBy(1, TimeUnit.SECONDS);
Assert.assertEquals(true, it.hasNext());
Assert.assertEquals(Long.valueOf(i), it.next());
}
scheduler.advanceTimeBy(1, TimeUnit.SECONDS);
Assert.assertEquals(false, it.hasNext());
}
}
@Test
public void testParseDecOrDefaultOk() throws Exception {
long i = 12;
String s = Long.toString(i);
int def = 14;
assertEquals(i, ParseLong.parseDecOrDefault(s, def));
}
@Test
public void testParseHexOptionalOk() throws Exception {
long i = 0x14;
String s = Long.toHexString(i);
OptionalLong ret = ParseLong.parseHexOptional(s);
assertTrue(ret.isPresent());
assertEquals(i, ret.getAsLong());
}
@Test
public void testParseHexPrefixEquals() throws Exception {
long i = 123456;
String s = Long.toHexString(i);
String s1 = "0x" + s;
String s2 = "0X" + s;
// Transitive property means we only have to test twice
assertEquals(ParseLong.parseHex(s), ParseLong.parseHex(s1));
assertEquals(ParseLong.parseHex(s1), ParseLong.parseHex(s2));
}
// @Test
public void testInsert() throws SQLException {
if (!((CreatebleDao) dao).tableExist()) {
((CreatebleDao) dao).createTable();
}
spread = new Spread();
spread.setAmount(Integer.valueOf(500));
spread.setDate("29/06/2013");
spread.setFlockId(Long.valueOf(1));
spread.setNumberAccount(Integer.valueOf(5));
spread.setPrice(Float.valueOf("12.34"));
spread.setTotal(Float.valueOf("10.25"));
dao.insert(spread);
assertEquals(5, dao.getAllByFlockId(flockId).size());
List<Spread> spreads = dao.getAllByFlockId(flockId);
for (Spread g : spreads) {
System.out.println(g);
}
}
@Test(timeout = 1000, expected = NoSuchElementException.class)
public void testSimpleJustNext() {
TestScheduler scheduler = new TestScheduler();
NbpBlockingObservable<Long> source =
NbpObservable.interval(1, TimeUnit.SECONDS, scheduler).take(10).toBlocking();
Iterable<Long> iter = source.latest();
Iterator<Long> it = iter.iterator();
// only 9 because take(10) will immediately call onCompleted when receiving the 10th item
// which onCompleted will overwrite the previous value
for (int i = 0; i < 10; i++) {
scheduler.advanceTimeBy(1, TimeUnit.SECONDS);
Assert.assertEquals(Long.valueOf(i), it.next());
}
}
/** @author Administrator */
@Ignore
public class DerbySpreadDaoTest {
private Long flockId = Long.valueOf(1);
private Spread spread;
private SpreadDao dao;
public DerbySpreadDaoTest() {}
@BeforeClass
public static void setUpClass() throws Exception {}
@AfterClass
public static void tearDownClass() throws Exception {}
@Before
public void setUp() {
dao = DbImplDecider.use(DaoType.MYSQL).getDao(SpreadDao.class);
}
@Test
public void testCreateTable() throws SQLException {
if (!((CreatebleDao) dao).tableExist()) {
((CreatebleDao) dao).createTable();
}
assertTrue(((CreatebleDao) dao).tableExist());
}
// @Test
public void testDropTable() throws SQLException {
((DerbySpreadDaoImpl) dao).dropTable();
assertFalse(((CreatebleDao) dao).tableExist());
}
// @Test
public void testInsert() throws SQLException {
if (!((CreatebleDao) dao).tableExist()) {
((CreatebleDao) dao).createTable();
}
spread = new Spread();
spread.setAmount(Integer.valueOf(500));
spread.setDate("29/06/2013");
spread.setFlockId(Long.valueOf(1));
spread.setNumberAccount(Integer.valueOf(5));
spread.setPrice(Float.valueOf("12.34"));
spread.setTotal(Float.valueOf("10.25"));
dao.insert(spread);
assertEquals(5, dao.getAllByFlockId(flockId).size());
List<Spread> spreads = dao.getAllByFlockId(flockId);
for (Spread g : spreads) {
System.out.println(g);
}
}
// @Test
public void testRemove() throws SQLException {
dao.remove(spread.getId());
spread = dao.getById(flockId);
assertNull(spread);
}
// @Test
public void testRemoveAll() throws SQLException {
List<Spread> spreadList = dao.getAllByFlockId(flockId);
for (Spread g : spreadList) {
dao.remove(g.getId());
}
spreadList = dao.getAllByFlockId(flockId);
assertEquals(0, spreadList.size());
}
}
private String getUniqueId() {
return Long.toHexString(Double.doubleToLongBits(Math.random()));
}
@Test
public void testParseDec_MaxSigned() throws Exception {
long i = Long.MAX_VALUE;
String s = Long.toString(i);
assertEquals(i, ParseLong.parseDec(s));
}
// Test negative sign prefix
@Test
public void testParseDec_Negative() throws Exception {
long i = -123456;
String s = Long.toString(i);
assertEquals(i, ParseLong.parseDec(s));
}
// Test dec/hex hex trimming
@Test
public void testParse_HexTrim() throws Exception {
long i = 0x123ABC;
String s = WHITESPACE + "0x" + Long.toHexString(i) + WHITESPACE;
assertEquals(i, ParseLong.parse(s));
}
// Test dec/hex dec trimming
@Test
public void testParse_DecTrim() throws Exception {
long i = 123456;
String s = WHITESPACE + Long.toString(i) + WHITESPACE;
assertEquals(i, ParseLong.parse(s));
}
// Test dec/hex picking
@Test
public void testParse_Hex() throws Exception {
long i = 0x123ABC;
String s = "0x" + Long.toHexString(i);
assertEquals(i, ParseLong.parse(s));
}
// Test dec/hex picking
@Test
public void testParse_Dec() throws Exception {
long i = 123456;
String s = Long.toString(i);
assertEquals(i, ParseLong.parse(s));
}
// Technically this is the same as MaxUnsigned
@Test
public void testParseHexMinSigned() throws Exception {
long i = Long.MIN_VALUE;
String s = "0x" + Long.toHexString(i);
assertEquals(i, ParseLong.parseHex(s));
}
