org.apache.flink.optimizer.util.OperatorResolver Java Examples
The following examples show how to use
org.apache.flink.optimizer.util.OperatorResolver.
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Example #1
| Source File: KMeansSingleStepTest.java From Flink-CEPplus with Apache License 2.0 | 5 votes |
|
@Test
public void testCompileKMeansSingleStepWithStats() {
Plan p = getKMeansPlan();
p.setExecutionConfig(new ExecutionConfig());
// set the statistics
OperatorResolver cr = getContractResolver(p);
GenericDataSourceBase<?, ?> pointsSource = cr.getNode(DATAPOINTS);
GenericDataSourceBase<?, ?> centersSource = cr.getNode(CENTERS);
setSourceStatistics(pointsSource, 100L * 1024 * 1024 * 1024, 32f);
setSourceStatistics(centersSource, 1024 * 1024, 32f);
OptimizedPlan plan = compileWithStats(p);
checkPlan(plan);
}
Example #2
| Source File: RelationalQueryCompilerTest.java From Flink-CEPplus with Apache License 2.0 | 5 votes |
|
/**
* Statistics that push towards a repartition merge join. If the join blows the data volume up significantly,
* re-exploiting the sorted order is cheaper.
*/
@Test
public void testQueryWithStatsForRepartitionMerge() {
Plan p = getTPCH3Plan();
p.setExecutionConfig(defaultExecutionConfig);
// set compiler hints
OperatorResolver cr = getContractResolver(p);
DualInputOperator<?, ?, ?, ?> match = cr.getNode(JOIN_NAME);
match.getCompilerHints().setFilterFactor(100f);
testQueryGeneric(100L * 1024 * 1024 * 1024 * 1024, 100L * 1024 * 1024 * 1024 * 1024, 0.01f, 100f, false, true, false, false, true);
}
Example #3
| Source File: KMeansSingleStepTest.java From flink with Apache License 2.0 | 5 votes |
|
@Test
public void testCompileKMeansSingleStepWithStats() {
Plan p = getKMeansPlan();
p.setExecutionConfig(new ExecutionConfig());
// set the statistics
OperatorResolver cr = getContractResolver(p);
GenericDataSourceBase<?, ?> pointsSource = cr.getNode(DATAPOINTS);
GenericDataSourceBase<?, ?> centersSource = cr.getNode(CENTERS);
setSourceStatistics(pointsSource, 100L * 1024 * 1024 * 1024, 32f);
setSourceStatistics(centersSource, 1024 * 1024, 32f);
OptimizedPlan plan = compileWithStats(p);
checkPlan(plan);
}
Example #4
| Source File: RelationalQueryCompilerTest.java From flink with Apache License 2.0 | 5 votes |
|
/**
* Statistics that push towards a repartition merge join. If the join blows the data volume up significantly,
* re-exploiting the sorted order is cheaper.
*/
@Test
public void testQueryWithStatsForRepartitionMerge() {
Plan p = getTPCH3Plan();
p.setExecutionConfig(defaultExecutionConfig);
// set compiler hints
OperatorResolver cr = getContractResolver(p);
DualInputOperator<?, ?, ?, ?> match = cr.getNode(JOIN_NAME);
match.getCompilerHints().setFilterFactor(100f);
testQueryGeneric(100L * 1024 * 1024 * 1024 * 1024, 100L * 1024 * 1024 * 1024 * 1024, 0.01f, 100f, false, true, false, false, true);
}
Example #5
| Source File: KMeansSingleStepTest.java From flink with Apache License 2.0 | 5 votes |
|
@Test
public void testCompileKMeansSingleStepWithStats() throws Exception {
Plan p = getKMeansPlan();
p.setExecutionConfig(new ExecutionConfig());
// set the statistics
OperatorResolver cr = getContractResolver(p);
GenericDataSourceBase<?, ?> pointsSource = cr.getNode(DATAPOINTS);
GenericDataSourceBase<?, ?> centersSource = cr.getNode(CENTERS);
setSourceStatistics(pointsSource, 100L * 1024 * 1024 * 1024, 32f);
setSourceStatistics(centersSource, 1024 * 1024, 32f);
OptimizedPlan plan = compileWithStats(p);
checkPlan(plan);
}
Example #6
| Source File: RelationalQueryCompilerTest.java From flink with Apache License 2.0 | 5 votes |
|
/**
* Statistics that push towards a repartition merge join. If the join blows the data volume up significantly,
* re-exploiting the sorted order is cheaper.
*/
@Test
public void testQueryWithStatsForRepartitionMerge() throws Exception {
Plan p = getTPCH3Plan();
p.setExecutionConfig(defaultExecutionConfig);
// set compiler hints
OperatorResolver cr = getContractResolver(p);
DualInputOperator<?, ?, ?, ?> match = cr.getNode(JOIN_NAME);
match.getCompilerHints().setFilterFactor(100f);
testQueryGeneric(100L * 1024 * 1024 * 1024 * 1024, 100L * 1024 * 1024 * 1024 * 1024, 0.01f, 100f, false, true, false, false, true);
}
Example #7
| Source File: RelationalQueryCompilerTest.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
|
private void testQueryGeneric(Plan p, long orderSize, long lineitemSize,
float orderSelectivity, float joinSelectivity,
boolean broadcastOkay, boolean partitionedOkay,
boolean hashJoinFirstOkay, boolean hashJoinSecondOkay, boolean mergeJoinOkay) {
try {
// set statistics
OperatorResolver cr = getContractResolver(p);
GenericDataSourceBase<?, ?> ordersSource = cr.getNode(ORDERS);
GenericDataSourceBase<?, ?> lineItemSource = cr.getNode(LINEITEM);
SingleInputOperator<?, ?, ?> mapper = cr.getNode(MAPPER_NAME);
DualInputOperator<?, ?, ?, ?> joiner = cr.getNode(JOIN_NAME);
setSourceStatistics(ordersSource, orderSize, 100f);
setSourceStatistics(lineItemSource, lineitemSize, 140f);
mapper.getCompilerHints().setAvgOutputRecordSize(16f);
mapper.getCompilerHints().setFilterFactor(orderSelectivity);
joiner.getCompilerHints().setFilterFactor(joinSelectivity);
// compile
final OptimizedPlan plan = compileWithStats(p);
final OptimizerPlanNodeResolver or = getOptimizerPlanNodeResolver(plan);
// get the nodes from the final plan
final SinkPlanNode sink = or.getNode(SINK);
final SingleInputPlanNode reducer = or.getNode(REDUCE_NAME);
final SingleInputPlanNode combiner = reducer.getPredecessor() instanceof SingleInputPlanNode ?
(SingleInputPlanNode) reducer.getPredecessor() : null;
final DualInputPlanNode join = or.getNode(JOIN_NAME);
final SingleInputPlanNode filteringMapper = or.getNode(MAPPER_NAME);
checkStandardStrategies(filteringMapper, join, combiner, reducer, sink);
// check the possible variants and that the variant ia allowed in this specific setting
if (checkBroadcastShipStrategies(join, reducer, combiner)) {
Assert.assertTrue("Broadcast join incorrectly chosen.", broadcastOkay);
if (checkHashJoinStrategies(join, reducer, true)) {
Assert.assertTrue("Hash join (build orders) incorrectly chosen", hashJoinFirstOkay);
} else if (checkHashJoinStrategies(join, reducer, false)) {
Assert.assertTrue("Hash join (build lineitem) incorrectly chosen", hashJoinSecondOkay);
} else if (checkBroadcastMergeJoin(join, reducer)) {
Assert.assertTrue("Merge join incorrectly chosen", mergeJoinOkay);
} else {
Assert.fail("Plan has no correct hash join or merge join strategies.");
}
}
else if (checkRepartitionShipStrategies(join, reducer, combiner)) {
Assert.assertTrue("Partitioned join incorrectly chosen.", partitionedOkay);
if (checkHashJoinStrategies(join, reducer, true)) {
Assert.assertTrue("Hash join (build orders) incorrectly chosen", hashJoinFirstOkay);
} else if (checkHashJoinStrategies(join, reducer, false)) {
Assert.assertTrue("Hash join (build lineitem) incorrectly chosen", hashJoinSecondOkay);
} else if (checkRepartitionMergeJoin(join, reducer)) {
Assert.assertTrue("Merge join incorrectly chosen", mergeJoinOkay);
} else {
Assert.fail("Plan has no correct hash join or merge join strategies.");
}
} else {
Assert.fail("Plan has neither correct BC join or partitioned join configuration.");
}
} catch (Exception e) {
e.printStackTrace();
Assert.fail(e.getMessage());
}
}
Example #8
| Source File: RelationalQueryCompilerTest.java From flink with Apache License 2.0 | 4 votes |
|
private void testQueryGeneric(Plan p, long orderSize, long lineitemSize,
float orderSelectivity, float joinSelectivity,
boolean broadcastOkay, boolean partitionedOkay,
boolean hashJoinFirstOkay, boolean hashJoinSecondOkay, boolean mergeJoinOkay) {
try {
// set statistics
OperatorResolver cr = getContractResolver(p);
GenericDataSourceBase<?, ?> ordersSource = cr.getNode(ORDERS);
GenericDataSourceBase<?, ?> lineItemSource = cr.getNode(LINEITEM);
SingleInputOperator<?, ?, ?> mapper = cr.getNode(MAPPER_NAME);
DualInputOperator<?, ?, ?, ?> joiner = cr.getNode(JOIN_NAME);
setSourceStatistics(ordersSource, orderSize, 100f);
setSourceStatistics(lineItemSource, lineitemSize, 140f);
mapper.getCompilerHints().setAvgOutputRecordSize(16f);
mapper.getCompilerHints().setFilterFactor(orderSelectivity);
joiner.getCompilerHints().setFilterFactor(joinSelectivity);
// compile
final OptimizedPlan plan = compileWithStats(p);
final OptimizerPlanNodeResolver or = getOptimizerPlanNodeResolver(plan);
// get the nodes from the final plan
final SinkPlanNode sink = or.getNode(SINK);
final SingleInputPlanNode reducer = or.getNode(REDUCE_NAME);
final SingleInputPlanNode combiner = reducer.getPredecessor() instanceof SingleInputPlanNode ?
(SingleInputPlanNode) reducer.getPredecessor() : null;
final DualInputPlanNode join = or.getNode(JOIN_NAME);
final SingleInputPlanNode filteringMapper = or.getNode(MAPPER_NAME);
checkStandardStrategies(filteringMapper, join, combiner, reducer, sink);
// check the possible variants and that the variant ia allowed in this specific setting
if (checkBroadcastShipStrategies(join, reducer, combiner)) {
Assert.assertTrue("Broadcast join incorrectly chosen.", broadcastOkay);
if (checkHashJoinStrategies(join, reducer, true)) {
Assert.assertTrue("Hash join (build orders) incorrectly chosen", hashJoinFirstOkay);
} else if (checkHashJoinStrategies(join, reducer, false)) {
Assert.assertTrue("Hash join (build lineitem) incorrectly chosen", hashJoinSecondOkay);
} else if (checkBroadcastMergeJoin(join, reducer)) {
Assert.assertTrue("Merge join incorrectly chosen", mergeJoinOkay);
} else {
Assert.fail("Plan has no correct hash join or merge join strategies.");
}
}
else if (checkRepartitionShipStrategies(join, reducer, combiner)) {
Assert.assertTrue("Partitioned join incorrectly chosen.", partitionedOkay);
if (checkHashJoinStrategies(join, reducer, true)) {
Assert.assertTrue("Hash join (build orders) incorrectly chosen", hashJoinFirstOkay);
} else if (checkHashJoinStrategies(join, reducer, false)) {
Assert.assertTrue("Hash join (build lineitem) incorrectly chosen", hashJoinSecondOkay);
} else if (checkRepartitionMergeJoin(join, reducer)) {
Assert.assertTrue("Merge join incorrectly chosen", mergeJoinOkay);
} else {
Assert.fail("Plan has no correct hash join or merge join strategies.");
}
} else {
Assert.fail("Plan has neither correct BC join or partitioned join configuration.");
}
} catch (Exception e) {
e.printStackTrace();
Assert.fail(e.getMessage());
}
}
Example #9
| Source File: RelationalQueryCompilerTest.java From flink with Apache License 2.0 | 4 votes |
|
private void testQueryGeneric(Plan p, long orderSize, long lineitemSize,
float orderSelectivity, float joinSelectivity,
boolean broadcastOkay, boolean partitionedOkay,
boolean hashJoinFirstOkay, boolean hashJoinSecondOkay, boolean mergeJoinOkay) {
try {
// set statistics
OperatorResolver cr = getContractResolver(p);
GenericDataSourceBase<?, ?> ordersSource = cr.getNode(ORDERS);
GenericDataSourceBase<?, ?> lineItemSource = cr.getNode(LINEITEM);
SingleInputOperator<?, ?, ?> mapper = cr.getNode(MAPPER_NAME);
DualInputOperator<?, ?, ?, ?> joiner = cr.getNode(JOIN_NAME);
setSourceStatistics(ordersSource, orderSize, 100f);
setSourceStatistics(lineItemSource, lineitemSize, 140f);
mapper.getCompilerHints().setAvgOutputRecordSize(16f);
mapper.getCompilerHints().setFilterFactor(orderSelectivity);
joiner.getCompilerHints().setFilterFactor(joinSelectivity);
// compile
final OptimizedPlan plan = compileWithStats(p);
final OptimizerPlanNodeResolver or = getOptimizerPlanNodeResolver(plan);
// get the nodes from the final plan
final SinkPlanNode sink = or.getNode(SINK);
final SingleInputPlanNode reducer = or.getNode(REDUCE_NAME);
final SingleInputPlanNode combiner = reducer.getPredecessor() instanceof SingleInputPlanNode ?
(SingleInputPlanNode) reducer.getPredecessor() : null;
final DualInputPlanNode join = or.getNode(JOIN_NAME);
final SingleInputPlanNode filteringMapper = or.getNode(MAPPER_NAME);
checkStandardStrategies(filteringMapper, join, combiner, reducer, sink);
// check the possible variants and that the variant ia allowed in this specific setting
if (checkBroadcastShipStrategies(join, reducer, combiner)) {
Assert.assertTrue("Broadcast join incorrectly chosen.", broadcastOkay);
if (checkHashJoinStrategies(join, reducer, true)) {
Assert.assertTrue("Hash join (build orders) incorrectly chosen", hashJoinFirstOkay);
} else if (checkHashJoinStrategies(join, reducer, false)) {
Assert.assertTrue("Hash join (build lineitem) incorrectly chosen", hashJoinSecondOkay);
} else if (checkBroadcastMergeJoin(join, reducer)) {
Assert.assertTrue("Merge join incorrectly chosen", mergeJoinOkay);
} else {
Assert.fail("Plan has no correct hash join or merge join strategies.");
}
}
else if (checkRepartitionShipStrategies(join, reducer, combiner)) {
Assert.assertTrue("Partitioned join incorrectly chosen.", partitionedOkay);
if (checkHashJoinStrategies(join, reducer, true)) {
Assert.assertTrue("Hash join (build orders) incorrectly chosen", hashJoinFirstOkay);
} else if (checkHashJoinStrategies(join, reducer, false)) {
Assert.assertTrue("Hash join (build lineitem) incorrectly chosen", hashJoinSecondOkay);
} else if (checkRepartitionMergeJoin(join, reducer)) {
Assert.assertTrue("Merge join incorrectly chosen", mergeJoinOkay);
} else {
Assert.fail("Plan has no correct hash join or merge join strategies.");
}
} else {
Assert.fail("Plan has neither correct BC join or partitioned join configuration.");
}
} catch (Exception e) {
e.printStackTrace();
Assert.fail(e.getMessage());
}
}
