示例#1
0
  private PlanBuilder appendSemiJoin(PlanBuilder subPlan, InPredicate inPredicate) {
    TranslationMap translations = new TranslationMap(subPlan.getRelationPlan(), analysis);
    translations.copyMappingsFrom(subPlan.getTranslations());

    subPlan = appendProjections(subPlan, ImmutableList.of(inPredicate.getValue()));
    Symbol sourceJoinSymbol = subPlan.translate(inPredicate.getValue());

    checkState(inPredicate.getValueList() instanceof SubqueryExpression);
    SubqueryExpression subqueryExpression = (SubqueryExpression) inPredicate.getValueList();
    RelationPlanner relationPlanner =
        new RelationPlanner(analysis, symbolAllocator, idAllocator, metadata, session);
    RelationPlan valueListRelation = relationPlanner.process(subqueryExpression.getQuery(), null);
    Symbol filteringSourceJoinSymbol =
        Iterables.getOnlyElement(valueListRelation.getRoot().getOutputSymbols());

    Symbol semiJoinOutputSymbol = symbolAllocator.newSymbol("semijoinresult", BOOLEAN);

    translations.put(inPredicate, semiJoinOutputSymbol);

    return new PlanBuilder(
        translations,
        new SemiJoinNode(
            idAllocator.getNextId(),
            subPlan.getRoot(),
            valueListRelation.getRoot(),
            sourceJoinSymbol,
            filteringSourceJoinSymbol,
            semiJoinOutputSymbol,
            Optional.empty(),
            Optional.empty()),
        subPlan.getSampleWeight());
  }
示例#2
0
  private PlanBuilder appendProjections(PlanBuilder subPlan, Iterable<Expression> expressions) {
    TranslationMap translations = new TranslationMap(subPlan.getRelationPlan(), analysis);

    // Carry over the translations from the source because we are appending projections
    translations.copyMappingsFrom(subPlan.getTranslations());

    ImmutableMap.Builder<Symbol, Expression> projections = ImmutableMap.builder();

    // add an identity projection for underlying plan
    for (Symbol symbol : subPlan.getRoot().getOutputSymbols()) {
      Expression expression = new QualifiedNameReference(symbol.toQualifiedName());
      projections.put(symbol, expression);
    }

    ImmutableMap.Builder<Symbol, Expression> newTranslations = ImmutableMap.builder();
    for (Expression expression : expressions) {
      Symbol symbol = symbolAllocator.newSymbol(expression, analysis.getType(expression));

      // TODO: CHECK IF THE REWRITE OF A SEMI JOINED EXPRESSION WILL WORK!!!!!!!

      projections.put(symbol, translations.rewrite(expression));
      newTranslations.put(symbol, expression);
    }
    // Now append the new translations into the TranslationMap
    for (Map.Entry<Symbol, Expression> entry : newTranslations.build().entrySet()) {
      translations.put(entry.getValue(), entry.getKey());
    }

    return new PlanBuilder(
        translations,
        new ProjectNode(idAllocator.getNextId(), subPlan.getRoot(), projections.build()),
        subPlan.getSampleWeight());
  }
示例#3
0
  private RelationPlan planCrossJoinUnnest(RelationPlan leftPlan, Join joinNode, Unnest node) {
    TupleDescriptor outputDescriptor = analysis.getOutputDescriptor(joinNode);
    TupleDescriptor unnestOutputDescriptor = analysis.getOutputDescriptor(node);
    // Create symbols for the result of unnesting
    ImmutableList.Builder<Symbol> unnestedSymbolsBuilder = ImmutableList.builder();
    for (Field field : unnestOutputDescriptor.getVisibleFields()) {
      Symbol symbol = symbolAllocator.newSymbol(field);
      unnestedSymbolsBuilder.add(symbol);
    }
    ImmutableList<Symbol> unnestedSymbols = unnestedSymbolsBuilder.build();

    // Add a projection for all the unnest arguments
    PlanBuilder planBuilder = initializePlanBuilder(leftPlan);
    planBuilder = appendProjections(planBuilder, node.getExpressions());
    TranslationMap translations = planBuilder.getTranslations();
    ProjectNode projectNode =
        checkType(planBuilder.getRoot(), ProjectNode.class, "planBuilder.getRoot()");

    ImmutableMap.Builder<Symbol, List<Symbol>> unnestSymbols = ImmutableMap.builder();
    UnmodifiableIterator<Symbol> unnestedSymbolsIterator = unnestedSymbols.iterator();
    for (Expression expression : node.getExpressions()) {
      Type type = analysis.getType(expression);
      Symbol inputSymbol = translations.get(expression);
      if (type instanceof ArrayType) {
        unnestSymbols.put(inputSymbol, ImmutableList.of(unnestedSymbolsIterator.next()));
      } else if (type instanceof MapType) {
        unnestSymbols.put(
            inputSymbol,
            ImmutableList.of(unnestedSymbolsIterator.next(), unnestedSymbolsIterator.next()));
      } else {
        throw new IllegalArgumentException("Unsupported type for UNNEST: " + type);
      }
    }
    Optional<Symbol> ordinalitySymbol =
        node.isWithOrdinality() ? Optional.of(unnestedSymbolsIterator.next()) : Optional.empty();
    checkState(
        !unnestedSymbolsIterator.hasNext(),
        "Not all output symbols were matched with input symbols");

    UnnestNode unnestNode =
        new UnnestNode(
            idAllocator.getNextId(),
            projectNode,
            leftPlan.getOutputSymbols(),
            unnestSymbols.build(),
            ordinalitySymbol);
    return new RelationPlan(
        unnestNode, outputDescriptor, unnestNode.getOutputSymbols(), Optional.empty());
  }
示例#4
0
  @Override
  protected RelationPlan visitQuerySpecification(QuerySpecification node, Void context) {
    PlanBuilder subPlan =
        new QueryPlanner(analysis, symbolAllocator, idAllocator, metadata, session)
            .process(node, null);

    ImmutableList.Builder<Symbol> outputSymbols = ImmutableList.builder();
    for (FieldOrExpression fieldOrExpression : analysis.getOutputExpressions(node)) {
      outputSymbols.add(subPlan.translate(fieldOrExpression));
    }

    return new RelationPlan(
        subPlan.getRoot(),
        analysis.getOutputDescriptor(node),
        outputSymbols.build(),
        subPlan.getSampleWeight());
  }
示例#5
0
  @Override
  protected RelationPlan visitJoin(Join node, Void context) {
    // TODO: translate the RIGHT join into a mirrored LEFT join when we refactor (@martint)
    RelationPlan leftPlan = process(node.getLeft(), context);

    // Convert CROSS JOIN UNNEST to an UnnestNode
    if (node.getRight() instanceof Unnest
        || (node.getRight() instanceof AliasedRelation
            && ((AliasedRelation) node.getRight()).getRelation() instanceof Unnest)) {
      Unnest unnest;
      if (node.getRight() instanceof AliasedRelation) {
        unnest = (Unnest) ((AliasedRelation) node.getRight()).getRelation();
      } else {
        unnest = (Unnest) node.getRight();
      }
      if (node.getType() != Join.Type.CROSS && node.getType() != Join.Type.IMPLICIT) {
        throw new SemanticException(
            NOT_SUPPORTED, unnest, "UNNEST only supported on the right side of CROSS JOIN");
      }
      return planCrossJoinUnnest(leftPlan, node, unnest);
    }

    RelationPlan rightPlan = process(node.getRight(), context);

    PlanBuilder leftPlanBuilder = initializePlanBuilder(leftPlan);
    PlanBuilder rightPlanBuilder = initializePlanBuilder(rightPlan);

    TupleDescriptor outputDescriptor = analysis.getOutputDescriptor(node);

    // NOTE: symbols must be in the same order as the outputDescriptor
    List<Symbol> outputSymbols =
        ImmutableList.<Symbol>builder()
            .addAll(leftPlan.getOutputSymbols())
            .addAll(rightPlan.getOutputSymbols())
            .build();

    ImmutableList.Builder<JoinNode.EquiJoinClause> equiClauses = ImmutableList.builder();
    Expression postInnerJoinCriteria = new BooleanLiteral("TRUE");
    if (node.getType() != Join.Type.CROSS && node.getType() != Join.Type.IMPLICIT) {
      Expression criteria = analysis.getJoinCriteria(node);

      TupleDescriptor left = analysis.getOutputDescriptor(node.getLeft());
      TupleDescriptor right = analysis.getOutputDescriptor(node.getRight());
      List<Expression> leftExpressions = new ArrayList<>();
      List<Expression> rightExpressions = new ArrayList<>();
      List<ComparisonExpression.Type> comparisonTypes = new ArrayList<>();
      for (Expression conjunct : ExpressionUtils.extractConjuncts(criteria)) {
        if (!(conjunct instanceof ComparisonExpression)) {
          throw new SemanticException(
              NOT_SUPPORTED, node, "Unsupported non-equi join form: %s", conjunct);
        }

        ComparisonExpression comparison = (ComparisonExpression) conjunct;
        ComparisonExpression.Type comparisonType = comparison.getType();
        if (comparison.getType() != EQUAL && node.getType() != INNER) {
          throw new SemanticException(
              NOT_SUPPORTED, node, "Non-equi joins only supported for inner join: %s", conjunct);
        }
        Set<QualifiedName> firstDependencies =
            DependencyExtractor.extractNames(comparison.getLeft());
        Set<QualifiedName> secondDependencies =
            DependencyExtractor.extractNames(comparison.getRight());

        Expression leftExpression;
        Expression rightExpression;
        if (Iterables.all(firstDependencies, left.canResolvePredicate())
            && Iterables.all(secondDependencies, right.canResolvePredicate())) {
          leftExpression = comparison.getLeft();
          rightExpression = comparison.getRight();
        } else if (Iterables.all(firstDependencies, right.canResolvePredicate())
            && Iterables.all(secondDependencies, left.canResolvePredicate())) {
          leftExpression = comparison.getRight();
          rightExpression = comparison.getLeft();
          comparisonType = flipComparison(comparisonType);
        } else {
          // must have a complex expression that involves both tuples on one side of the comparison
          // expression (e.g., coalesce(left.x, right.x) = 1)
          throw new SemanticException(
              NOT_SUPPORTED, node, "Unsupported non-equi join form: %s", conjunct);
        }
        leftExpressions.add(leftExpression);
        rightExpressions.add(rightExpression);
        comparisonTypes.add(comparisonType);
      }

      Analysis.JoinInPredicates joinInPredicates = analysis.getJoinInPredicates(node);

      // Add semi joins if necessary
      if (joinInPredicates != null) {
        leftPlanBuilder = appendSemiJoins(leftPlanBuilder, joinInPredicates.getLeftInPredicates());
        rightPlanBuilder =
            appendSemiJoins(rightPlanBuilder, joinInPredicates.getRightInPredicates());
      }

      // Add projections for join criteria
      leftPlanBuilder = appendProjections(leftPlanBuilder, leftExpressions);
      rightPlanBuilder = appendProjections(rightPlanBuilder, rightExpressions);

      List<Expression> postInnerJoinComparisons = new ArrayList<>();
      for (int i = 0; i < comparisonTypes.size(); i++) {
        Symbol leftSymbol = leftPlanBuilder.translate(leftExpressions.get(i));
        Symbol rightSymbol = rightPlanBuilder.translate(rightExpressions.get(i));

        equiClauses.add(new JoinNode.EquiJoinClause(leftSymbol, rightSymbol));

        Expression leftExpression = leftPlanBuilder.rewrite(leftExpressions.get(i));
        Expression rightExpression = rightPlanBuilder.rewrite(rightExpressions.get(i));
        postInnerJoinComparisons.add(
            new ComparisonExpression(comparisonTypes.get(i), leftExpression, rightExpression));
      }
      postInnerJoinCriteria = ExpressionUtils.and(postInnerJoinComparisons);
    }

    PlanNode root;
    if (node.getType() == INNER) {
      root =
          new JoinNode(
              idAllocator.getNextId(),
              JoinNode.Type.CROSS,
              leftPlanBuilder.getRoot(),
              rightPlanBuilder.getRoot(),
              ImmutableList.<JoinNode.EquiJoinClause>of(),
              Optional.empty(),
              Optional.empty());
      root = new FilterNode(idAllocator.getNextId(), root, postInnerJoinCriteria);
    } else {
      root =
          new JoinNode(
              idAllocator.getNextId(),
              JoinNode.Type.typeConvert(node.getType()),
              leftPlanBuilder.getRoot(),
              rightPlanBuilder.getRoot(),
              equiClauses.build(),
              Optional.empty(),
              Optional.empty());
    }
    Optional<Symbol> sampleWeight = Optional.empty();
    if (leftPlanBuilder.getSampleWeight().isPresent()
        || rightPlanBuilder.getSampleWeight().isPresent()) {
      Expression expression =
          new ArithmeticBinaryExpression(
              ArithmeticBinaryExpression.Type.MULTIPLY,
              oneIfNull(leftPlanBuilder.getSampleWeight()),
              oneIfNull(rightPlanBuilder.getSampleWeight()));
      sampleWeight = Optional.of(symbolAllocator.newSymbol(expression, BIGINT));
      ImmutableMap.Builder<Symbol, Expression> projections = ImmutableMap.builder();
      projections.put(sampleWeight.get(), expression);
      for (Symbol symbol : root.getOutputSymbols()) {
        projections.put(symbol, new QualifiedNameReference(symbol.toQualifiedName()));
      }
      root = new ProjectNode(idAllocator.getNextId(), root, projections.build());
    }

    return new RelationPlan(root, outputDescriptor, outputSymbols, sampleWeight);
  }