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apache / trafodion / refs/heads/default / . / tests / phx / src / test / java / org / trafodion / phoenix / end2end / UpsertBigValuesTest.java
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package test.java.org.trafodion.phoenix.end2end;
import static org.junit.Assert.*;
import org.junit.*;
import java.sql.*;
import java.util.*;
public class UpsertBigValuesTest extends BaseTest {
@BeforeClass
public static void doTestSuiteSetup() throws Exception {
/* List all of the object names being used in this entire class.
* The objects are dropped with errors ignored, so it is OK if the
* object does not exist for a particular test.
*/
objDropList = new ArrayList<String>(
Arrays.asList("table PKIntValueTest", "table PKBigIntValueTest", "table KVIntValueTest", "table KVBigIntValueTest"));
doBaseTestSuiteSetup();
}
/* @AfterClass, @Before, @After are defined in BaseTest */
private static final long INTEGER_MIN_MINUS_ONE = (long)Integer.MIN_VALUE - 1;
private static final long INTEGER_MAX_PLUS_ONE = (long)Integer.MAX_VALUE + 1;
@Test
public void testIntegerPK() throws Exception {
printTestDescription();
int[] testNumbers = {Integer.MIN_VALUE, Integer.MIN_VALUE + 1,
-2, -1, 0, 1, 2, Integer.MAX_VALUE - 1, Integer.MAX_VALUE};
createTestTable("PKIntValueTest");
String upsert = null;
if (tgtPH()||tgtTR()) upsert = "UPSERT INTO PKIntValueTest VALUES(?)";
else if (tgtSQ()) upsert = "INSERT INTO PKIntValueTest VALUES(?)";
PreparedStatement stmt = conn.prepareStatement(upsert);
for (int i = 0; i < testNumbers.length; i++) {
stmt.setInt(1, testNumbers[i]);
stmt.execute();
}
String select = "SELECT COUNT(*) from PKIntValueTest";
ResultSet rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT count(*) FROM PKIntValueTest where pk >= " + Integer.MIN_VALUE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT pk FROM PKIntValueTest where pk >= " + Integer.MIN_VALUE +
" GROUP BY pk ORDER BY pk ASC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT pk FROM PKIntValueTest where pk >= " + Integer.MIN_VALUE +
" GROUP BY pk ORDER BY pk ASC";
rs = conn.createStatement().executeQuery(select);
for (int i = 0; i < testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
// NOTE: This case currently fails with an error message:
// "Overflow trying to get next key for [-1, -1, -1, -1]"
select = "SELECT count(*) FROM PKIntValueTest where pk <= " + Integer.MAX_VALUE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT pk FROM PKIntValueTest where pk <= " + Integer.MAX_VALUE +
" GROUP BY pk ORDER BY pk DESC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT pk FROM PKIntValueTest where pk <= " + Integer.MAX_VALUE +
" GROUP BY pk ORDER BY pk DESC";
rs = conn.createStatement().executeQuery(select);
for (int i = testNumbers.length - 1; i >= 0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
// NOTE: This case currently fails since it is not retrieving the negative values.
select = "SELECT count(*) FROM PKIntValueTest where pk >= " + INTEGER_MIN_MINUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT pk FROM PKIntValueTest where pk >= " + INTEGER_MIN_MINUS_ONE +
" GROUP BY pk ORDER BY pk ASC NULLS LAST ";
else if (tgtSQ()||tgtTR()) select = "SELECT pk FROM PKIntValueTest where pk >= " + INTEGER_MIN_MINUS_ONE +
" GROUP BY pk ORDER BY pk ASC ";
rs = conn.createStatement().executeQuery(select);
for (int i = 0; i < testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
// NOTE: This test case fails because it is not retrieving positive values.
select = "SELECT count(*) FROM PKIntValueTest where pk <= " + INTEGER_MAX_PLUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT pk FROM PKIntValueTest where pk <= " + INTEGER_MAX_PLUS_ONE +
" GROUP BY pk ORDER BY pk DESC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT pk FROM PKIntValueTest where pk <= " + INTEGER_MAX_PLUS_ONE +
" GROUP BY pk ORDER BY pk DESC";
rs = conn.createStatement().executeQuery(select);
for (int i = testNumbers.length - 1; i >= 0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
}
@Test
public void testBigIntPK() throws Exception {
printTestDescription();
// NOTE: Due to how we parse negative long, -9223372036854775808L, the minimum value of
// bigint is not recognizable in the current version. As a result, we start with
// Long.MIN_VALUE+1 as the smallest value.
long[] testNumbers = {Long.MIN_VALUE+1 , Long.MIN_VALUE+2 ,
-2L, -1L, 0L, 1L, 2L, Long.MAX_VALUE-1, Long.MAX_VALUE};
createTestTable("PKBigIntValueTest");
String upsert = null;
if (tgtPH()||tgtTR()) upsert = "UPSERT INTO PKBigIntValueTest VALUES(?)";
else if (tgtSQ()) upsert = "INSERT INTO PKBigIntValueTest VALUES(?)";
PreparedStatement stmt = conn.prepareStatement(upsert);
for (int i=0; i<testNumbers.length; i++) {
stmt.setLong(1, testNumbers[i]);
stmt.execute();
}
String select = "SELECT COUNT(*) from PKBigIntValueTest";
ResultSet rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT count(*) FROM PKBigIntValueTest where pk >= " + (Long.MIN_VALUE + 1);
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT pk FROM PKBigIntValueTest WHERE pk >= " + (Long.MIN_VALUE + 1) +
" GROUP BY pk ORDER BY pk ASC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT pk FROM PKBigIntValueTest WHERE pk >= " + (Long.MIN_VALUE + 1) +
" GROUP BY pk ORDER BY pk ASC";
rs = conn.createStatement().executeQuery(select);
for (int i = 0; i < testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getLong(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM PKBigIntValueTest where pk <= " + Long.MAX_VALUE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT pk FROM PKBigIntValueTest WHERE pk <= " + Long.MAX_VALUE +
" GROUP BY pk ORDER BY pk DESC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT pk FROM PKBigIntValueTest WHERE pk <= " + Long.MAX_VALUE +
" GROUP BY pk ORDER BY pk DESC";
rs = conn.createStatement().executeQuery(select);
for (int i = testNumbers.length - 1; i >= 0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getLong(1));
}
assertFalse(rs.next());
/* NOTE: This section currently fails due to the fact that we cannot parse literal values
that are bigger than Long.MAX_VALUE and Long.MIN_VALUE. We will need to fix the parse
before enabling this section of the test.
select = "SELECT count(*) FROM PKBigIntValueTest where pk >= " + LONG_MIN_MINUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT pk FROM PKBigIntValueTest WHERE pk >= " + LONG_MIN_MINUS_ONE +
" GROUP BY pk ORDER BY pk ASC NULLS LAST ";
rs = conn.createStatement().executeQuery(select);
for (int i = 0; i < testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getLong(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM PKBigIntValueTest where pk <= " + LONG_MAX_PLUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT pk FROM PKBigIntValueTest WHERE pk <= " + LONG_MAX_PLUS_ONE +
" GROUP BY pk ORDER BY pk DESC NULLS LAST";
rs = conn.createStatement().executeQuery(select);
for (int i = testNumbers.length-1; i >= 0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getLong(1));
}
assertFalse(rs.next());
*/
}
@Test
public void testIntegerKV() throws Exception {
printTestDescription();
int[] testNumbers = {Integer.MIN_VALUE, Integer.MIN_VALUE + 1,
-2, -1, 0, 1, 2, Integer.MAX_VALUE - 1, Integer.MAX_VALUE};
createTestTable("KVIntValueTest");
String upsert = null;
if (tgtPH()||tgtTR()) upsert = "UPSERT INTO KVIntValueTest VALUES(?, ?)";
else if (tgtSQ()) upsert = "INSERT INTO KVIntValueTest VALUES(?, ?)";
PreparedStatement stmt = conn.prepareStatement(upsert);
for (int i=0; i<testNumbers.length; i++) {
stmt.setInt(1, i);
stmt.setInt(2, testNumbers[i]);
stmt.execute();
}
String select = "SELECT COUNT(*) from KVIntValueTest";
ResultSet rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT count(*) FROM KVIntValueTest where kv >= " + Integer.MIN_VALUE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT kv FROM KVIntValueTest WHERE kv >= " + Integer.MIN_VALUE +
" GROUP BY kv ORDER BY kv ASC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT kv FROM KVIntValueTest WHERE kv >= " + Integer.MIN_VALUE +
" GROUP BY kv ORDER BY kv ASC";
rs = conn.createStatement().executeQuery(select);
for (int i=0; i<testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM KVIntValueTest where kv <= " + Integer.MAX_VALUE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT kv FROM KVIntValueTest WHERE kv <= " + Integer.MAX_VALUE +
" GROUP BY kv ORDER BY kv DESC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT kv FROM KVIntValueTest WHERE kv <= " + Integer.MAX_VALUE +
" GROUP BY kv ORDER BY kv DESC";
rs = conn.createStatement().executeQuery(select);
for (int i=testNumbers.length-1; i>=0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM KVIntValueTest where kv >= " + INTEGER_MIN_MINUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT kv FROM KVIntValueTest WHERE kv >= " + INTEGER_MIN_MINUS_ONE +
" GROUP BY kv ORDER BY kv ASC NULLS LAST ";
else if (tgtSQ()||tgtTR()) select = "SELECT kv FROM KVIntValueTest WHERE kv >= " + INTEGER_MIN_MINUS_ONE +
" GROUP BY kv ORDER BY kv ASC ";
rs = conn.createStatement().executeQuery(select);
for (int i=0; i<testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM KVIntValueTest where kv <= " + INTEGER_MAX_PLUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT kv FROM KVIntValueTest WHERE kv <= " + INTEGER_MAX_PLUS_ONE +
" GROUP BY kv ORDER BY kv DESC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT kv FROM KVIntValueTest WHERE kv <= " + INTEGER_MAX_PLUS_ONE +
" GROUP BY kv ORDER BY kv DESC";
rs = conn.createStatement().executeQuery(select);
for (int i=testNumbers.length-1; i>=0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
}
@Test
public void testBigIntKV() throws Exception {
printTestDescription();
// NOTE: Due to how we parse negative long, -9223372036854775808L, the minimum value of
// bigint is not recognizable in the current version. As a result, we start with
// Long.MIN_VALUE+1 as the smallest value.
long[] testNumbers = {Long.MIN_VALUE+1, Long.MIN_VALUE+2,
-2L, -1L, 0L, 1L, 2L, Long.MAX_VALUE-1, Long.MAX_VALUE};
createTestTable("KVBigIntValueTest");
String upsert = null;
if (tgtPH()||tgtTR()) upsert = "UPSERT INTO KVBigIntValueTest VALUES(?,?)";
else if (tgtSQ()) upsert = "INSERT INTO KVBigIntValueTest VALUES(?,?)";
PreparedStatement stmt = conn.prepareStatement(upsert);
for (int i = 0; i < testNumbers.length; i++) {
stmt.setLong(1, i);
stmt.setLong(2, testNumbers[i]);
stmt.execute();
}
String select = "SELECT COUNT(*) from KVBigIntValueTest";
ResultSet rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT count(*) FROM KVBigIntValueTest where kv >= " + (Long.MIN_VALUE+1);
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT kv FROM KVBigIntValueTest WHERE kv >= " + (Long.MIN_VALUE+1) +
" GROUP BY kv ORDER BY kv ASC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT kv FROM KVBigIntValueTest WHERE kv >= " + (Long.MIN_VALUE+1) +
" GROUP BY kv ORDER BY kv ASC";
rs = conn.createStatement().executeQuery(select);
for (int i = 0; i < testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getLong(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM KVBigIntValueTest where kv <= " + Long.MAX_VALUE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
if (tgtPH()) select = "SELECT kv FROM KVBigIntValueTest WHERE kv <= " + Long.MAX_VALUE +
" GROUP BY kv ORDER BY kv DESC NULLS LAST";
else if (tgtSQ()||tgtTR()) select = "SELECT kv FROM KVBigIntValueTest WHERE kv <= " + Long.MAX_VALUE +
" GROUP BY kv ORDER BY kv DESC";
rs = conn.createStatement().executeQuery(select);
for (int i = testNumbers.length-1; i >= 0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getLong(1));
}
assertFalse(rs.next());
/* NOTE: This section currently fails due to the fact that we cannot parse literal values
that are bigger than Long.MAX_VALUE and Long.MIN_VALUE. We will need to fix the parse
before enabling this section of the test.
select = "SELECT count(*) FROM KVBigIntValueTest where kv >= " + LONG_MIN_MINUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT kv FROM KVBigIntValueTest WHERE kv >= " + LONG_MIN_MINUS_ONE +
" GROUP BY kv ORDER BY kv ASC NULLS LAST ";
rs = conn.createStatement().executeQuery(select);
for (int i = 0; i < testNumbers.length; i++) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
select = "SELECT count(*) FROM KVBigIntValueTest where kv <= " + LONG_MAX_PLUS_ONE;
rs = conn.createStatement().executeQuery(select);
assertTrue(rs.next());
assertEquals(testNumbers.length, rs.getInt(1));
assertFalse(rs.next());
select = "SELECT kv FROM KVBigIntValueTest WHERE kv <= " + LONG_MAX_PLUS_ONE +
" GROUP BY kv ORDER BY kv DESC NULLS LAST";
rs = conn.createStatement().executeQuery(select);
for (int i = testNumbers.length-1; i >= 0; i--) {
assertTrue(rs.next());
assertEquals(testNumbers[i], rs.getInt(1));
}
assertFalse(rs.next());
*/
}
}