@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if (!in2.isOnDynamicPath() && in1.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in2.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in2.setTempMode(in2.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if(!in1.isOnDynamicPath() && in2.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in1.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in1.setTempMode(in1.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
in.setTempMode(in.getTempMode().makePipelineBreaker());
if (someDamOnLeftPaths && !damOnAllRightPaths) { in2.setTempMode(in2.getTempMode().makePipelineBreaker()); in1.setTempMode(in1.getTempMode().makePipelineBreaker());
siSolutionDeltaCandidate.getInput().setTempMode(TempMode.PIPELINE_BREAKER); immediateDeltaUpdate = false;
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if (!in2.isOnDynamicPath() && in1.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in2.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in2.setTempMode(in2.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if (!in2.isOnDynamicPath() && in1.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in2.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in2.setTempMode(in2.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if(!in1.isOnDynamicPath() && in2.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in1.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in1.setTempMode(in1.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if (!in2.isOnDynamicPath() && in1.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in2.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in2.setTempMode(in2.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if(!in1.isOnDynamicPath() && in2.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in1.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in1.setTempMode(in1.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if(!in1.isOnDynamicPath() && in2.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in1.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in1.setTempMode(in1.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if (!in2.isOnDynamicPath() && in1.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in2.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in2.setTempMode(in2.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_SECOND; } return new DualInputPlanNode(node, "Join ("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
@Override public DualInputPlanNode instantiate(Channel in1, Channel in2, TwoInputNode node) { DriverStrategy strategy; if(!in1.isOnDynamicPath() && in2.isOnDynamicPath()) { // sanity check that the first input is cached and remove that cache if (!in1.getTempMode().isCached()) { throw new CompilerException("No cache at point where static and dynamic parts meet."); } in1.setTempMode(in1.getTempMode().makeNonCached()); strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST_CACHED; } else { strategy = DriverStrategy.HYBRIDHASH_BUILD_FIRST; } return new DualInputPlanNode(node, "Join("+node.getOperator().getName()+")", in1, in2, strategy, this.keys1, this.keys2); }
in.setTempMode(in.getTempMode().makePipelineBreaker());
in.setTempMode(in.getTempMode().makePipelineBreaker());
in.setTempMode(in.getTempMode().makePipelineBreaker());
if (someDamOnLeftPaths && !damOnAllRightPaths) { in2.setTempMode(in2.getTempMode().makePipelineBreaker()); in1.setTempMode(in1.getTempMode().makePipelineBreaker());
if (someDamOnLeftPaths && !damOnAllRightPaths) { in2.setTempMode(in2.getTempMode().makePipelineBreaker()); in1.setTempMode(in1.getTempMode().makePipelineBreaker());
if (someDamOnLeftPaths & !damOnAllRightPaths) { in2.setTempMode(in2.getTempMode().makePipelineBreaker()); in1.setTempMode(in1.getTempMode().makePipelineBreaker());
if (someDamOnLeftPaths & !damOnAllRightPaths) { in2.setTempMode(in2.getTempMode().makePipelineBreaker()); in1.setTempMode(in1.getTempMode().makePipelineBreaker());