use of org.apache.flink.optimizer.plan.NamedChannel in project flink by apache.
the class BinaryUnionNode method getAlternativePlans.
@Override
public List<PlanNode> getAlternativePlans(CostEstimator estimator) {
// check that union has only a single successor
if (this.getOutgoingConnections().size() > 1) {
throw new CompilerException("BinaryUnionNode has more than one successor.");
}
boolean childrenSkippedDueToReplicatedInput = false;
// check if we have a cached version
if (this.cachedPlans != null) {
return this.cachedPlans;
}
// step down to all producer nodes and calculate alternative plans
final List<? extends PlanNode> subPlans1 = getFirstPredecessorNode().getAlternativePlans(estimator);
final List<? extends PlanNode> subPlans2 = getSecondPredecessorNode().getAlternativePlans(estimator);
List<DagConnection> broadcastConnections = getBroadcastConnections();
if (broadcastConnections != null && broadcastConnections.size() > 0) {
throw new CompilerException("Found BroadcastVariables on a Union operation");
}
final ArrayList<PlanNode> outputPlans = new ArrayList<PlanNode>();
final List<Set<? extends NamedChannel>> broadcastPlanChannels = Collections.emptyList();
final BinaryUnionOpDescriptor operator = new BinaryUnionOpDescriptor();
final RequestedLocalProperties noLocalProps = new RequestedLocalProperties();
final ExecutionMode input1Mode = this.input1.getDataExchangeMode();
final ExecutionMode input2Mode = this.input2.getDataExchangeMode();
final int parallelism = getParallelism();
final int inParallelism1 = getFirstPredecessorNode().getParallelism();
final int inParallelism2 = getSecondPredecessorNode().getParallelism();
final boolean dopChange1 = parallelism != inParallelism1;
final boolean dopChange2 = parallelism != inParallelism2;
final boolean input1breakPipeline = this.input1.isBreakingPipeline();
final boolean input2breakPipeline = this.input2.isBreakingPipeline();
// create all candidates
for (PlanNode child1 : subPlans1) {
if (child1.getGlobalProperties().isFullyReplicated()) {
// fully replicated input is always locally forwarded if parallelism is not changed
if (dopChange1) {
// can not continue with this child
childrenSkippedDueToReplicatedInput = true;
continue;
} else {
this.input1.setShipStrategy(ShipStrategyType.FORWARD);
}
}
for (PlanNode child2 : subPlans2) {
if (child2.getGlobalProperties().isFullyReplicated()) {
// changed
if (dopChange2) {
// can not continue with this child
childrenSkippedDueToReplicatedInput = true;
continue;
} else {
this.input2.setShipStrategy(ShipStrategyType.FORWARD);
}
}
// candidate at the joined branch plan.
if (!areBranchCompatible(child1, child2)) {
continue;
}
for (RequestedGlobalProperties igps : this.channelProps) {
// create a candidate channel for the first input. mark it cached, if the
// connection says so
Channel c1 = new Channel(child1, this.input1.getMaterializationMode());
if (this.input1.getShipStrategy() == null) {
// free to choose the ship strategy
igps.parameterizeChannel(c1, dopChange1, input1Mode, input1breakPipeline);
// ship strategy preserves/establishes them even under changing parallelisms
if (dopChange1 && !c1.getShipStrategy().isNetworkStrategy()) {
c1.getGlobalProperties().reset();
}
} else {
// ship strategy fixed by compiler hint
ShipStrategyType shipStrategy = this.input1.getShipStrategy();
DataExchangeMode exMode = DataExchangeMode.select(input1Mode, shipStrategy, input1breakPipeline);
if (this.keys1 != null) {
c1.setShipStrategy(this.input1.getShipStrategy(), this.keys1.toFieldList(), exMode);
} else {
c1.setShipStrategy(this.input1.getShipStrategy(), exMode);
}
if (dopChange1) {
c1.adjustGlobalPropertiesForFullParallelismChange();
}
}
// create a candidate channel for the second input. mark it cached, if the
// connection says so
Channel c2 = new Channel(child2, this.input2.getMaterializationMode());
if (this.input2.getShipStrategy() == null) {
// free to choose the ship strategy
igps.parameterizeChannel(c2, dopChange2, input2Mode, input2breakPipeline);
// ship strategy preserves/establishes them even under changing parallelisms
if (dopChange2 && !c2.getShipStrategy().isNetworkStrategy()) {
c2.getGlobalProperties().reset();
}
} else {
// ship strategy fixed by compiler hint
ShipStrategyType shipStrategy = this.input2.getShipStrategy();
DataExchangeMode exMode = DataExchangeMode.select(input2Mode, shipStrategy, input2breakPipeline);
if (this.keys2 != null) {
c2.setShipStrategy(this.input2.getShipStrategy(), this.keys2.toFieldList(), exMode);
} else {
c2.setShipStrategy(this.input2.getShipStrategy(), exMode);
}
if (dopChange2) {
c2.adjustGlobalPropertiesForFullParallelismChange();
}
}
// get the global properties and clear unique fields (not preserved anyways
// during the union)
GlobalProperties p1 = c1.getGlobalProperties();
GlobalProperties p2 = c2.getGlobalProperties();
p1.clearUniqueFieldCombinations();
p2.clearUniqueFieldCombinations();
// partitioned on that field.
if (!igps.isTrivial() && !(p1.equals(p2))) {
if (c1.getShipStrategy() == ShipStrategyType.FORWARD && c2.getShipStrategy() != ShipStrategyType.FORWARD) {
// adjust c2 to c1
c2 = c2.clone();
p1.parameterizeChannel(c2, dopChange2, input2Mode, input2breakPipeline);
} else if (c2.getShipStrategy() == ShipStrategyType.FORWARD && c1.getShipStrategy() != ShipStrategyType.FORWARD) {
// adjust c1 to c2
c1 = c1.clone();
p2.parameterizeChannel(c1, dopChange1, input1Mode, input1breakPipeline);
} else if (c1.getShipStrategy() == ShipStrategyType.FORWARD && c2.getShipStrategy() == ShipStrategyType.FORWARD) {
boolean adjustC1 = c1.getEstimatedOutputSize() <= 0 || c2.getEstimatedOutputSize() <= 0 || c1.getEstimatedOutputSize() <= c2.getEstimatedOutputSize();
if (adjustC1) {
c2 = c2.clone();
p1.parameterizeChannel(c2, dopChange2, input2Mode, input2breakPipeline);
} else {
c1 = c1.clone();
p2.parameterizeChannel(c1, dopChange1, input1Mode, input1breakPipeline);
}
} else {
// excluded by the check that the required strategies must match
throw new CompilerException("Bug in Plan Enumeration for Union Node.");
}
}
instantiate(operator, c1, c2, broadcastPlanChannels, outputPlans, estimator, igps, igps, noLocalProps, noLocalProps);
}
}
}
if (outputPlans.isEmpty()) {
if (childrenSkippedDueToReplicatedInput) {
throw new CompilerException("No plan meeting the requirements could be created @ " + this + ". Most likely reason: Invalid use of replicated input.");
} else {
throw new CompilerException("No plan meeting the requirements could be created @ " + this + ". Most likely reason: Too restrictive plan hints.");
}
}
// cost and prune the plans
for (PlanNode node : outputPlans) {
estimator.costOperator(node);
}
prunePlanAlternatives(outputPlans);
outputPlans.trimToSize();
this.cachedPlans = outputPlans;
return outputPlans;
}
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