Java Code Examples for org.apache.flink.optimizer.plan.DualInputPlanNode#getInput2()
The following examples show how to use
org.apache.flink.optimizer.plan.DualInputPlanNode#getInput2() .
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Example 1
| Source File: AdditionalOperatorsTest.java From Flink-CEPplus with Apache License 2.0 | 5 votes |
|
@Test
public void testCrossWithSmall() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Long> set1 = env.generateSequence(0,1);
DataSet<Long> set2 = env.generateSequence(0,1);
set1.crossWithTiny(set2).name("Cross")
.output(new DiscardingOutputFormat<Tuple2<Long, Long>>());
try {
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan = compileWithStats(plan);
OptimizerPlanNodeResolver resolver = new OptimizerPlanNodeResolver(oPlan);
DualInputPlanNode crossPlanNode = resolver.getNode("Cross");
Channel in1 = crossPlanNode.getInput1();
Channel in2 = crossPlanNode.getInput2();
assertEquals(ShipStrategyType.FORWARD, in1.getShipStrategy());
assertEquals(ShipStrategyType.BROADCAST, in2.getShipStrategy());
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The Flink optimizer is unable to compile this plan correctly.");
}
}
Example 2
| Source File: AdditionalOperatorsTest.java From Flink-CEPplus with Apache License 2.0 | 5 votes |
|
@Test
public void testCrossWithLarge() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Long> set1 = env.generateSequence(0,1);
DataSet<Long> set2 = env.generateSequence(0,1);
set1.crossWithHuge(set2).name("Cross")
.output(new DiscardingOutputFormat<Tuple2<Long, Long>>());
try {
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan = compileNoStats(plan);
OptimizerPlanNodeResolver resolver = new OptimizerPlanNodeResolver(oPlan);
DualInputPlanNode crossPlanNode = resolver.getNode("Cross");
Channel in1 = crossPlanNode.getInput1();
Channel in2 = crossPlanNode.getInput2();
assertEquals(ShipStrategyType.BROADCAST, in1.getShipStrategy());
assertEquals(ShipStrategyType.FORWARD, in2.getShipStrategy());
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The pact compiler is unable to compile this plan correctly.");
}
}
Example 3
| Source File: AdditionalOperatorsTest.java From flink with Apache License 2.0 | 5 votes |
|
@Test
public void testCrossWithSmall() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Long> set1 = env.generateSequence(0,1);
DataSet<Long> set2 = env.generateSequence(0,1);
set1.crossWithTiny(set2).name("Cross")
.output(new DiscardingOutputFormat<Tuple2<Long, Long>>());
try {
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan = compileWithStats(plan);
OptimizerPlanNodeResolver resolver = new OptimizerPlanNodeResolver(oPlan);
DualInputPlanNode crossPlanNode = resolver.getNode("Cross");
Channel in1 = crossPlanNode.getInput1();
Channel in2 = crossPlanNode.getInput2();
assertEquals(ShipStrategyType.FORWARD, in1.getShipStrategy());
assertEquals(ShipStrategyType.BROADCAST, in2.getShipStrategy());
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The Flink optimizer is unable to compile this plan correctly.");
}
}
Example 4
| Source File: AdditionalOperatorsTest.java From flink with Apache License 2.0 | 5 votes |
|
@Test
public void testCrossWithLarge() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Long> set1 = env.generateSequence(0,1);
DataSet<Long> set2 = env.generateSequence(0,1);
set1.crossWithHuge(set2).name("Cross")
.output(new DiscardingOutputFormat<Tuple2<Long, Long>>());
try {
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan = compileNoStats(plan);
OptimizerPlanNodeResolver resolver = new OptimizerPlanNodeResolver(oPlan);
DualInputPlanNode crossPlanNode = resolver.getNode("Cross");
Channel in1 = crossPlanNode.getInput1();
Channel in2 = crossPlanNode.getInput2();
assertEquals(ShipStrategyType.BROADCAST, in1.getShipStrategy());
assertEquals(ShipStrategyType.FORWARD, in2.getShipStrategy());
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The pact compiler is unable to compile this plan correctly.");
}
}
Example 5
| Source File: AdditionalOperatorsTest.java From flink with Apache License 2.0 | 5 votes |
|
@Test
public void testCrossWithSmall() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Long> set1 = env.generateSequence(0,1);
DataSet<Long> set2 = env.generateSequence(0,1);
set1.crossWithTiny(set2).name("Cross")
.output(new DiscardingOutputFormat<Tuple2<Long, Long>>());
try {
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan = compileWithStats(plan);
OptimizerPlanNodeResolver resolver = new OptimizerPlanNodeResolver(oPlan);
DualInputPlanNode crossPlanNode = resolver.getNode("Cross");
Channel in1 = crossPlanNode.getInput1();
Channel in2 = crossPlanNode.getInput2();
assertEquals(ShipStrategyType.FORWARD, in1.getShipStrategy());
assertEquals(ShipStrategyType.BROADCAST, in2.getShipStrategy());
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The Flink optimizer is unable to compile this plan correctly.");
}
}
Example 6
| Source File: AdditionalOperatorsTest.java From flink with Apache License 2.0 | 5 votes |
|
@Test
public void testCrossWithLarge() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Long> set1 = env.generateSequence(0,1);
DataSet<Long> set2 = env.generateSequence(0,1);
set1.crossWithHuge(set2).name("Cross")
.output(new DiscardingOutputFormat<Tuple2<Long, Long>>());
try {
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan = compileNoStats(plan);
OptimizerPlanNodeResolver resolver = new OptimizerPlanNodeResolver(oPlan);
DualInputPlanNode crossPlanNode = resolver.getNode("Cross");
Channel in1 = crossPlanNode.getInput1();
Channel in2 = crossPlanNode.getInput2();
assertEquals(ShipStrategyType.BROADCAST, in1.getShipStrategy());
assertEquals(ShipStrategyType.FORWARD, in2.getShipStrategy());
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The pact compiler is unable to compile this plan correctly.");
}
}
Example 7
| Source File: GroupOrderTest.java From Flink-CEPplus with Apache License 2.0 | 4 votes |
|
@Test
public void testCoGroupWithGroupOrder() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Tuple7<Long, Long, Long, Long, Long, Long, Long>> set1 = env.readCsvFile("/tmp/fake1.csv")
.types(Long.class, Long.class, Long.class, Long.class, Long.class, Long.class, Long.class);
DataSet<Tuple7<Long, Long, Long, Long, Long, Long, Long>> set2 = env.readCsvFile("/tmp/fake2.csv")
.types(Long.class, Long.class, Long.class, Long.class, Long.class, Long.class, Long.class);
set1.coGroup(set2).where(3,0).equalTo(6,0)
.sortFirstGroup(5, Order.DESCENDING)
.sortSecondGroup(1, Order.DESCENDING).sortSecondGroup(4, Order.ASCENDING)
.with(new IdentityCoGrouper<Tuple7<Long, Long, Long, Long, Long, Long, Long>>()).name("CoGroup")
.output(new DiscardingOutputFormat<Tuple7<Long, Long, Long, Long, Long, Long, Long>>()).name("Sink");
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan;
try {
oPlan = compileNoStats(plan);
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The pact compiler is unable to compile this plan correctly.");
return; // silence the compiler
}
OptimizerPlanNodeResolver resolver = getOptimizerPlanNodeResolver(oPlan);
SinkPlanNode sinkNode = resolver.getNode("Sink");
DualInputPlanNode coGroupNode = resolver.getNode("CoGroup");
// verify the strategies
Assert.assertEquals(ShipStrategyType.FORWARD, sinkNode.getInput().getShipStrategy());
Assert.assertEquals(ShipStrategyType.PARTITION_HASH, coGroupNode.getInput1().getShipStrategy());
Assert.assertEquals(ShipStrategyType.PARTITION_HASH, coGroupNode.getInput2().getShipStrategy());
Channel c1 = coGroupNode.getInput1();
Channel c2 = coGroupNode.getInput2();
Assert.assertEquals(LocalStrategy.SORT, c1.getLocalStrategy());
Assert.assertEquals(LocalStrategy.SORT, c2.getLocalStrategy());
FieldList ship1 = new FieldList(3, 0);
FieldList ship2 = new FieldList(6, 0);
FieldList local1 = new FieldList(3, 0, 5);
FieldList local2 = new FieldList(6, 0, 1, 4);
Assert.assertEquals(ship1, c1.getShipStrategyKeys());
Assert.assertEquals(ship2, c2.getShipStrategyKeys());
Assert.assertEquals(local1, c1.getLocalStrategyKeys());
Assert.assertEquals(local2, c2.getLocalStrategyKeys());
Assert.assertTrue(c1.getLocalStrategySortOrder()[0] == coGroupNode.getSortOrders()[0]);
Assert.assertTrue(c1.getLocalStrategySortOrder()[1] == coGroupNode.getSortOrders()[1]);
Assert.assertTrue(c2.getLocalStrategySortOrder()[0] == coGroupNode.getSortOrders()[0]);
Assert.assertTrue(c2.getLocalStrategySortOrder()[1] == coGroupNode.getSortOrders()[1]);
// check that the local group orderings are correct
Assert.assertEquals(false, c1.getLocalStrategySortOrder()[2]);
Assert.assertEquals(false, c2.getLocalStrategySortOrder()[2]);
Assert.assertEquals(true, c2.getLocalStrategySortOrder()[3]);
}
Example 8
| Source File: GroupOrderTest.java From flink with Apache License 2.0 | 4 votes |
|
@Test
public void testCoGroupWithGroupOrder() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Tuple7<Long, Long, Long, Long, Long, Long, Long>> set1 = env.readCsvFile("/tmp/fake1.csv")
.types(Long.class, Long.class, Long.class, Long.class, Long.class, Long.class, Long.class);
DataSet<Tuple7<Long, Long, Long, Long, Long, Long, Long>> set2 = env.readCsvFile("/tmp/fake2.csv")
.types(Long.class, Long.class, Long.class, Long.class, Long.class, Long.class, Long.class);
set1.coGroup(set2).where(3,0).equalTo(6,0)
.sortFirstGroup(5, Order.DESCENDING)
.sortSecondGroup(1, Order.DESCENDING).sortSecondGroup(4, Order.ASCENDING)
.with(new IdentityCoGrouper<Tuple7<Long, Long, Long, Long, Long, Long, Long>>()).name("CoGroup")
.output(new DiscardingOutputFormat<Tuple7<Long, Long, Long, Long, Long, Long, Long>>()).name("Sink");
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan;
try {
oPlan = compileNoStats(plan);
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The pact compiler is unable to compile this plan correctly.");
return; // silence the compiler
}
OptimizerPlanNodeResolver resolver = getOptimizerPlanNodeResolver(oPlan);
SinkPlanNode sinkNode = resolver.getNode("Sink");
DualInputPlanNode coGroupNode = resolver.getNode("CoGroup");
// verify the strategies
Assert.assertEquals(ShipStrategyType.FORWARD, sinkNode.getInput().getShipStrategy());
Assert.assertEquals(ShipStrategyType.PARTITION_HASH, coGroupNode.getInput1().getShipStrategy());
Assert.assertEquals(ShipStrategyType.PARTITION_HASH, coGroupNode.getInput2().getShipStrategy());
Channel c1 = coGroupNode.getInput1();
Channel c2 = coGroupNode.getInput2();
Assert.assertEquals(LocalStrategy.SORT, c1.getLocalStrategy());
Assert.assertEquals(LocalStrategy.SORT, c2.getLocalStrategy());
FieldList ship1 = new FieldList(3, 0);
FieldList ship2 = new FieldList(6, 0);
FieldList local1 = new FieldList(3, 0, 5);
FieldList local2 = new FieldList(6, 0, 1, 4);
Assert.assertEquals(ship1, c1.getShipStrategyKeys());
Assert.assertEquals(ship2, c2.getShipStrategyKeys());
Assert.assertEquals(local1, c1.getLocalStrategyKeys());
Assert.assertEquals(local2, c2.getLocalStrategyKeys());
Assert.assertTrue(c1.getLocalStrategySortOrder()[0] == coGroupNode.getSortOrders()[0]);
Assert.assertTrue(c1.getLocalStrategySortOrder()[1] == coGroupNode.getSortOrders()[1]);
Assert.assertTrue(c2.getLocalStrategySortOrder()[0] == coGroupNode.getSortOrders()[0]);
Assert.assertTrue(c2.getLocalStrategySortOrder()[1] == coGroupNode.getSortOrders()[1]);
// check that the local group orderings are correct
Assert.assertEquals(false, c1.getLocalStrategySortOrder()[2]);
Assert.assertEquals(false, c2.getLocalStrategySortOrder()[2]);
Assert.assertEquals(true, c2.getLocalStrategySortOrder()[3]);
}
Example 9
| Source File: GroupOrderTest.java From flink with Apache License 2.0 | 4 votes |
|
@Test
public void testCoGroupWithGroupOrder() {
// construct the plan
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(DEFAULT_PARALLELISM);
DataSet<Tuple7<Long, Long, Long, Long, Long, Long, Long>> set1 = env.readCsvFile("/tmp/fake1.csv")
.types(Long.class, Long.class, Long.class, Long.class, Long.class, Long.class, Long.class);
DataSet<Tuple7<Long, Long, Long, Long, Long, Long, Long>> set2 = env.readCsvFile("/tmp/fake2.csv")
.types(Long.class, Long.class, Long.class, Long.class, Long.class, Long.class, Long.class);
set1.coGroup(set2).where(3,0).equalTo(6,0)
.sortFirstGroup(5, Order.DESCENDING)
.sortSecondGroup(1, Order.DESCENDING).sortSecondGroup(4, Order.ASCENDING)
.with(new IdentityCoGrouper<Tuple7<Long, Long, Long, Long, Long, Long, Long>>()).name("CoGroup")
.output(new DiscardingOutputFormat<Tuple7<Long, Long, Long, Long, Long, Long, Long>>()).name("Sink");
Plan plan = env.createProgramPlan();
OptimizedPlan oPlan;
try {
oPlan = compileNoStats(plan);
} catch(CompilerException ce) {
ce.printStackTrace();
fail("The pact compiler is unable to compile this plan correctly.");
return; // silence the compiler
}
OptimizerPlanNodeResolver resolver = getOptimizerPlanNodeResolver(oPlan);
SinkPlanNode sinkNode = resolver.getNode("Sink");
DualInputPlanNode coGroupNode = resolver.getNode("CoGroup");
// verify the strategies
Assert.assertEquals(ShipStrategyType.FORWARD, sinkNode.getInput().getShipStrategy());
Assert.assertEquals(ShipStrategyType.PARTITION_HASH, coGroupNode.getInput1().getShipStrategy());
Assert.assertEquals(ShipStrategyType.PARTITION_HASH, coGroupNode.getInput2().getShipStrategy());
Channel c1 = coGroupNode.getInput1();
Channel c2 = coGroupNode.getInput2();
Assert.assertEquals(LocalStrategy.SORT, c1.getLocalStrategy());
Assert.assertEquals(LocalStrategy.SORT, c2.getLocalStrategy());
FieldList ship1 = new FieldList(3, 0);
FieldList ship2 = new FieldList(6, 0);
FieldList local1 = new FieldList(3, 0, 5);
FieldList local2 = new FieldList(6, 0, 1, 4);
Assert.assertEquals(ship1, c1.getShipStrategyKeys());
Assert.assertEquals(ship2, c2.getShipStrategyKeys());
Assert.assertEquals(local1, c1.getLocalStrategyKeys());
Assert.assertEquals(local2, c2.getLocalStrategyKeys());
Assert.assertTrue(c1.getLocalStrategySortOrder()[0] == coGroupNode.getSortOrders()[0]);
Assert.assertTrue(c1.getLocalStrategySortOrder()[1] == coGroupNode.getSortOrders()[1]);
Assert.assertTrue(c2.getLocalStrategySortOrder()[0] == coGroupNode.getSortOrders()[0]);
Assert.assertTrue(c2.getLocalStrategySortOrder()[1] == coGroupNode.getSortOrders()[1]);
// check that the local group orderings are correct
Assert.assertEquals(false, c1.getLocalStrategySortOrder()[2]);
Assert.assertEquals(false, c2.getLocalStrategySortOrder()[2]);
Assert.assertEquals(true, c2.getLocalStrategySortOrder()[3]);
}
