private static void visit(PlanningSet planningSet, Fragment n) { Preconditions.checkNotNull(planningSet); Preconditions.checkNotNull(n); Wrapper wrapper = planningSet.get(n); n.getRoot().accept(opStatCollector, wrapper); // logger.debug("Set stats to {}", wrapper.getStats()); // receivers... for (ExchangeFragmentPair child : n) { // get the fragment node that feeds this node. Fragment childNode = child.getNode(); visit(planningSet, childNode); } }
private QueryWorkUnit generateWorkUnit( DrillbitEndpoint foremanNode, QueryId queryId, PhysicalPlanReader reader, Fragment rootNode, PlanningSet planningSet) throws ExecutionSetupException { List<PlanFragment> fragments = Lists.newArrayList(); PlanFragment rootFragment = null; FragmentRoot rootOperator = null; long queryStartTime = System.currentTimeMillis(); // now we generate all the individual plan fragments and associated assignments. Note, we need // all endpoints // assigned before we can materialize, so we start a new loop here rather than utilizing the // previous one. for (Wrapper wrapper : planningSet) { Fragment node = wrapper.getNode(); Stats stats = node.getStats(); final PhysicalOperator physicalOperatorRoot = node.getRoot(); boolean isRootNode = rootNode == node; if (isRootNode && wrapper.getWidth() != 1) throw new FragmentSetupException( String.format( "Failure while trying to setup fragment. The root fragment must always have parallelization one. In the current case, the width was set to %d.", wrapper.getWidth())); // a fragment is self driven if it doesn't rely on any other exchanges. boolean isLeafFragment = node.getReceivingExchangePairs().size() == 0; // Create a minorFragment for each major fragment. for (int minorFragmentId = 0; minorFragmentId < wrapper.getWidth(); minorFragmentId++) { IndexedFragmentNode iNode = new IndexedFragmentNode(minorFragmentId, wrapper); PhysicalOperator op = physicalOperatorRoot.accept(materializer, iNode); Preconditions.checkArgument(op instanceof FragmentRoot); FragmentRoot root = (FragmentRoot) op; // get plan as JSON String plan; try { plan = reader.writeJson(root); } catch (JsonProcessingException e) { throw new FragmentSetupException( "Failure while trying to convert fragment into json.", e); } FragmentHandle handle = FragmentHandle // .newBuilder() // .setMajorFragmentId(wrapper.getMajorFragmentId()) // .setMinorFragmentId(minorFragmentId) // .setQueryId(queryId) // .build(); PlanFragment fragment = PlanFragment.newBuilder() // .setCpuCost(stats.getCpuCost()) // .setDiskCost(stats.getDiskCost()) // .setForeman(foremanNode) // .setMemoryCost(stats.getMemoryCost()) // .setNetworkCost(stats.getNetworkCost()) // .setFragmentJson(plan) // .setHandle(handle) // .setAssignment(wrapper.getAssignedEndpoint(minorFragmentId)) // .setLeafFragment(isLeafFragment) // .setQueryStartTime(queryStartTime) .build(); if (isRootNode) { logger.debug("Root fragment:\n {}", fragment); rootFragment = fragment; rootOperator = root; } else { logger.debug("Remote fragment:\n {}", fragment); fragments.add(fragment); } } } return new QueryWorkUnit(rootOperator, rootFragment, fragments); }
protected QueryWorkUnit generateWorkUnit( OptionList options, DrillbitEndpoint foremanNode, QueryId queryId, PhysicalPlanReader reader, Fragment rootNode, PlanningSet planningSet, UserSession session, QueryContextInformation queryContextInfo) throws ExecutionSetupException { List<PlanFragment> fragments = Lists.newArrayList(); PlanFragment rootFragment = null; FragmentRoot rootOperator = null; // now we generate all the individual plan fragments and associated assignments. Note, we need // all endpoints // assigned before we can materialize, so we start a new loop here rather than utilizing the // previous one. for (Wrapper wrapper : planningSet) { Fragment node = wrapper.getNode(); final PhysicalOperator physicalOperatorRoot = node.getRoot(); boolean isRootNode = rootNode == node; if (isRootNode && wrapper.getWidth() != 1) { throw new ForemanSetupException( String.format( "Failure while trying to setup fragment. " + "The root fragment must always have parallelization one. In the current case, the width was set to %d.", wrapper.getWidth())); } // a fragment is self driven if it doesn't rely on any other exchanges. boolean isLeafFragment = node.getReceivingExchangePairs().size() == 0; // Create a minorFragment for each major fragment. for (int minorFragmentId = 0; minorFragmentId < wrapper.getWidth(); minorFragmentId++) { IndexedFragmentNode iNode = new IndexedFragmentNode(minorFragmentId, wrapper); wrapper.resetAllocation(); PhysicalOperator op = physicalOperatorRoot.accept(Materializer.INSTANCE, iNode); Preconditions.checkArgument(op instanceof FragmentRoot); FragmentRoot root = (FragmentRoot) op; // get plan as JSON String plan; String optionsData; try { plan = reader.writeJson(root); optionsData = reader.writeJson(options); } catch (JsonProcessingException e) { throw new ForemanSetupException("Failure while trying to convert fragment into json.", e); } FragmentHandle handle = FragmentHandle // .newBuilder() // .setMajorFragmentId(wrapper.getMajorFragmentId()) // .setMinorFragmentId(minorFragmentId) // .setQueryId(queryId) // .build(); PlanFragment fragment = PlanFragment.newBuilder() // .setForeman(foremanNode) // .setFragmentJson(plan) // .setHandle(handle) // .setAssignment(wrapper.getAssignedEndpoint(minorFragmentId)) // .setLeafFragment(isLeafFragment) // .setContext(queryContextInfo) .setMemInitial(wrapper.getInitialAllocation()) // .setMemMax(wrapper.getMaxAllocation()) .setOptionsJson(optionsData) .setCredentials(session.getCredentials()) .addAllCollector(CountRequiredFragments.getCollectors(root)) .build(); if (isRootNode) { logger.debug("Root fragment:\n {}", DrillStringUtils.unescapeJava(fragment.toString())); rootFragment = fragment; rootOperator = root; } else { logger.debug("Remote fragment:\n {}", DrillStringUtils.unescapeJava(fragment.toString())); fragments.add(fragment); } } } return new QueryWorkUnit(rootOperator, rootFragment, fragments); }