use of org.apache.flink.runtime.scheduler.strategy.TestingSchedulingTopology in project flink by apache.
the class SchedulingPipelinedRegionComputeUtilTest method testOneComponentViaTwoExchanges.
/**
* Tests that validates that a single pipelined component via a sequence of all-to-all
* connections works correctly.
*
* <pre>
* (a1) -+-> (b1) -+-> (c1)
* X X
* (a2) -+-> (b2) -+-> (c2)
* </pre>
*/
@Test
public void testOneComponentViaTwoExchanges() {
TestingSchedulingTopology topology = new TestingSchedulingTopology();
TestingSchedulingExecutionVertex va1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex va2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vb1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vb2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vc1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vc2 = topology.newExecutionVertex();
topology.connect(va1, vb1, ResultPartitionType.PIPELINED).connect(va1, vb2, ResultPartitionType.PIPELINED).connect(va2, vb1, ResultPartitionType.PIPELINED).connect(va2, vb2, ResultPartitionType.PIPELINED).connect(vb1, vc1, ResultPartitionType.PIPELINED).connect(vb1, vc2, ResultPartitionType.PIPELINED).connect(vb2, vc1, ResultPartitionType.PIPELINED).connect(vb2, vc2, ResultPartitionType.PIPELINED);
Map<ExecutionVertexID, Set<SchedulingExecutionVertex>> pipelinedRegionByVertex = computePipelinedRegionByVertex(topology);
Set<SchedulingExecutionVertex> ra1 = pipelinedRegionByVertex.get(va1.getId());
Set<SchedulingExecutionVertex> ra2 = pipelinedRegionByVertex.get(va2.getId());
Set<SchedulingExecutionVertex> rb1 = pipelinedRegionByVertex.get(vb1.getId());
Set<SchedulingExecutionVertex> rb2 = pipelinedRegionByVertex.get(vb2.getId());
Set<SchedulingExecutionVertex> rc1 = pipelinedRegionByVertex.get(vc1.getId());
Set<SchedulingExecutionVertex> rc2 = pipelinedRegionByVertex.get(vc2.getId());
assertSameRegion(ra1, ra2, rb1, rb2, rc1, rc2);
}
use of org.apache.flink.runtime.scheduler.strategy.TestingSchedulingTopology in project flink by apache.
the class SchedulingPipelinedRegionComputeUtilTest method testTwoComponentsViaBlockingExchange2.
/**
* Tests the below topology.
*
* <pre>
* (a1) -+-> (b1) -+-> (c1)
* X X
* (a2) -+-> (b2) -+-> (c2)
*
* ^ ^
* | |
* (pipelined) (blocking)
* </pre>
*/
@Test
public void testTwoComponentsViaBlockingExchange2() {
TestingSchedulingTopology topology = new TestingSchedulingTopology();
TestingSchedulingExecutionVertex va1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex va2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vb1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vb2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vc1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex vc2 = topology.newExecutionVertex();
topology.connect(va1, vb1, ResultPartitionType.PIPELINED).connect(va1, vb2, ResultPartitionType.PIPELINED).connect(va2, vb1, ResultPartitionType.PIPELINED).connect(va2, vb2, ResultPartitionType.PIPELINED).connect(vb1, vc1, ResultPartitionType.BLOCKING).connect(vb1, vc2, ResultPartitionType.BLOCKING).connect(vb2, vc1, ResultPartitionType.BLOCKING).connect(vb2, vc2, ResultPartitionType.BLOCKING);
Map<ExecutionVertexID, Set<SchedulingExecutionVertex>> pipelinedRegionByVertex = computePipelinedRegionByVertex(topology);
Set<SchedulingExecutionVertex> ra1 = pipelinedRegionByVertex.get(va1.getId());
Set<SchedulingExecutionVertex> ra2 = pipelinedRegionByVertex.get(va2.getId());
Set<SchedulingExecutionVertex> rb1 = pipelinedRegionByVertex.get(vb1.getId());
Set<SchedulingExecutionVertex> rb2 = pipelinedRegionByVertex.get(vb2.getId());
Set<SchedulingExecutionVertex> rc1 = pipelinedRegionByVertex.get(vc1.getId());
Set<SchedulingExecutionVertex> rc2 = pipelinedRegionByVertex.get(vc2.getId());
assertSameRegion(ra1, ra2, rb1, rb2);
assertDistinctRegions(ra1, rc1, rc2);
}
use of org.apache.flink.runtime.scheduler.strategy.TestingSchedulingTopology in project flink by apache.
the class SchedulingPipelinedRegionComputeUtilTest method testDiamondWithMixedPipelinedAndBlockingExchanges.
/**
* Tests the below topology.
*
* <pre>
* (blocking)
* |
* v
* +|-(v2)-+
* | |
* (v1)--+ +--(v4)
* | |
* +--(v3)-+
* </pre>
*/
@Test
public void testDiamondWithMixedPipelinedAndBlockingExchanges() {
TestingSchedulingTopology topology = new TestingSchedulingTopology();
TestingSchedulingExecutionVertex v1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v3 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v4 = topology.newExecutionVertex();
topology.connect(v1, v2, ResultPartitionType.BLOCKING).connect(v1, v3, ResultPartitionType.PIPELINED).connect(v2, v4, ResultPartitionType.PIPELINED).connect(v3, v4, ResultPartitionType.PIPELINED);
Map<ExecutionVertexID, Set<SchedulingExecutionVertex>> pipelinedRegionByVertex = computePipelinedRegionByVertex(topology);
Set<SchedulingExecutionVertex> r1 = pipelinedRegionByVertex.get(v1.getId());
Set<SchedulingExecutionVertex> r2 = pipelinedRegionByVertex.get(v2.getId());
Set<SchedulingExecutionVertex> r3 = pipelinedRegionByVertex.get(v3.getId());
Set<SchedulingExecutionVertex> r4 = pipelinedRegionByVertex.get(v4.getId());
assertSameRegion(r1, r2, r3, r4);
}
use of org.apache.flink.runtime.scheduler.strategy.TestingSchedulingTopology in project flink by apache.
the class SchedulingPipelinedRegionComputeUtilTest method testOneComponentViaCascadeOfJoins.
/**
* Tests that validates that a single pipelined component via a cascade of joins works
* correctly.
*
* <pre>
* (v1)--+
* +--(v5)-+
* (v2)--+ |
* +--(v7)
* (v3)--+ |
* +--(v6)-+
* (v4)--+
* </pre>
*/
@Test
public void testOneComponentViaCascadeOfJoins() {
TestingSchedulingTopology topology = new TestingSchedulingTopology();
TestingSchedulingExecutionVertex v1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v3 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v4 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v5 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v6 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v7 = topology.newExecutionVertex();
topology.connect(v1, v5, ResultPartitionType.PIPELINED).connect(v2, v5, ResultPartitionType.PIPELINED).connect(v3, v6, ResultPartitionType.PIPELINED).connect(v4, v6, ResultPartitionType.PIPELINED).connect(v5, v7, ResultPartitionType.PIPELINED).connect(v6, v7, ResultPartitionType.PIPELINED);
Map<ExecutionVertexID, Set<SchedulingExecutionVertex>> pipelinedRegionByVertex = computePipelinedRegionByVertex(topology);
Set<SchedulingExecutionVertex> r1 = pipelinedRegionByVertex.get(v1.getId());
Set<SchedulingExecutionVertex> r2 = pipelinedRegionByVertex.get(v2.getId());
Set<SchedulingExecutionVertex> r3 = pipelinedRegionByVertex.get(v3.getId());
Set<SchedulingExecutionVertex> r4 = pipelinedRegionByVertex.get(v4.getId());
Set<SchedulingExecutionVertex> r5 = pipelinedRegionByVertex.get(v5.getId());
Set<SchedulingExecutionVertex> r6 = pipelinedRegionByVertex.get(v6.getId());
Set<SchedulingExecutionVertex> r7 = pipelinedRegionByVertex.get(v7.getId());
assertSameRegion(r1, r2, r3, r4, r5, r6, r7);
}
use of org.apache.flink.runtime.scheduler.strategy.TestingSchedulingTopology in project flink by apache.
the class SchedulingPipelinedRegionComputeUtilTest method testMultipleComponentsViaCascadeOfJoins.
/**
* Cascades of joins with partially blocking, partially pipelined exchanges.
*
* <pre>
* (1)--+
* +--(5)-+
* (2)--+ |
* (blocking)
* |
* +--(7)
* |
* (blocking)
* (3)--+ |
* +--(6)-+
* (4)--+
* </pre>
*
* <p>Component 1: 1, 2, 5; component 2: 3,4,6; component 3: 7
*/
@Test
public void testMultipleComponentsViaCascadeOfJoins() {
TestingSchedulingTopology topology = new TestingSchedulingTopology();
TestingSchedulingExecutionVertex v1 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v2 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v3 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v4 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v5 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v6 = topology.newExecutionVertex();
TestingSchedulingExecutionVertex v7 = topology.newExecutionVertex();
topology.connect(v1, v5, ResultPartitionType.PIPELINED).connect(v2, v5, ResultPartitionType.PIPELINED).connect(v3, v6, ResultPartitionType.PIPELINED).connect(v4, v6, ResultPartitionType.PIPELINED).connect(v5, v7, ResultPartitionType.BLOCKING).connect(v6, v7, ResultPartitionType.BLOCKING);
Map<ExecutionVertexID, Set<SchedulingExecutionVertex>> pipelinedRegionByVertex = computePipelinedRegionByVertex(topology);
Set<SchedulingExecutionVertex> r1 = pipelinedRegionByVertex.get(v1.getId());
Set<SchedulingExecutionVertex> r2 = pipelinedRegionByVertex.get(v2.getId());
Set<SchedulingExecutionVertex> r3 = pipelinedRegionByVertex.get(v3.getId());
Set<SchedulingExecutionVertex> r4 = pipelinedRegionByVertex.get(v4.getId());
Set<SchedulingExecutionVertex> r5 = pipelinedRegionByVertex.get(v5.getId());
Set<SchedulingExecutionVertex> r6 = pipelinedRegionByVertex.get(v6.getId());
Set<SchedulingExecutionVertex> r7 = pipelinedRegionByVertex.get(v7.getId());
assertSameRegion(r1, r2, r5);
assertSameRegion(r3, r4, r6);
assertDistinctRegions(r1, r3, r7);
}
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