private void reduceNotNullableFilter(
     RelOptRuleCall call, FilterRel filter, RexCall rexCall, boolean reverse) {
   // If the expression is a IS [NOT] NULL on a non-nullable
   // column, then we can either remove the filter or replace
   // it with an EmptyRel.
   SqlOperator op = rexCall.getOperator();
   boolean alwaysTrue;
   if (op == SqlStdOperatorTable.isNullOperator
       || op == SqlStdOperatorTable.isUnknownOperator) {
     alwaysTrue = false;
   } else if (op == SqlStdOperatorTable.isNotNullOperator) {
     alwaysTrue = true;
   } else {
     return;
   }
   if (reverse) {
     alwaysTrue = !alwaysTrue;
   }
   RexNode operand = rexCall.getOperands()[0];
   if (operand instanceof RexInputRef) {
     RexInputRef inputRef = (RexInputRef) operand;
     if (!inputRef.getType().isNullable()) {
       if (alwaysTrue) {
         call.transformTo(filter.getChild());
       } else {
         call.transformTo(new EmptyRel(filter.getCluster(), filter.getRowType()));
       }
     }
   }
 }
        public void onMatch(RelOptRuleCall call) {
          CalcRel calc = (CalcRel) call.getRels()[0];
          RexProgram program = calc.getProgram();
          final List<RexNode> exprList = program.getExprList();

          // Form a list of expressions with sub-expressions fully
          // expanded.
          final List<RexNode> expandedExprList = new ArrayList<RexNode>(exprList.size());
          final RexShuttle shuttle =
              new RexShuttle() {
                public RexNode visitLocalRef(RexLocalRef localRef) {
                  return expandedExprList.get(localRef.getIndex());
                }
              };
          for (RexNode expr : exprList) {
            expandedExprList.add(expr.accept(shuttle));
          }
          if (reduceExpressions(calc, expandedExprList)) {
            final RexProgramBuilder builder =
                new RexProgramBuilder(
                    calc.getChild().getRowType(), calc.getCluster().getRexBuilder());
            List<RexLocalRef> list = new ArrayList<RexLocalRef>();
            for (RexNode expr : expandedExprList) {
              list.add(builder.registerInput(expr));
            }
            if (program.getCondition() != null) {
              final int conditionIndex = program.getCondition().getIndex();
              final RexNode newConditionExp = expandedExprList.get(conditionIndex);
              if (newConditionExp.isAlwaysTrue()) {
                // condition is always TRUE - drop it
              } else if ((newConditionExp instanceof RexLiteral)
                  || RexUtil.isNullLiteral(newConditionExp, true)) {
                // condition is always NULL or FALSE - replace calc
                // with empty
                call.transformTo(new EmptyRel(calc.getCluster(), calc.getRowType()));
                return;
              } else {
                builder.addCondition(list.get(conditionIndex));
              }
            }
            int k = 0;
            for (RexLocalRef projectExpr : program.getProjectList()) {
              final int index = projectExpr.getIndex();
              builder.addProject(
                  list.get(index).getIndex(),
                  program.getOutputRowType().getFieldList().get(k++).getName());
            }
            call.transformTo(
                new CalcRel(
                    calc.getCluster(),
                    calc.getTraits(),
                    calc.getChild(),
                    calc.getRowType(),
                    builder.getProgram(),
                    calc.getCollationList()));

            // New plan is absolutely better than old plan.
            call.getPlanner().setImportance(calc, 0.0);
          }
        }
 public void onMatch(RelOptRuleCall call) {
   UnionRel union = call.rel(0);
   if (union.all) {
     return; // nothing to do
   }
   UnionRel unionAll = new UnionRel(union.getCluster(), union.getInputs(), true);
   call.transformTo(RelOptUtil.createDistinctRel(unionAll));
 }
Exemplo n.º 4
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 // implement RelOptRule
 public void onMatch(RelOptRuleCall call) {
   CalcRel calc = call.rel(0);
   RexProgram program = calc.getProgram();
   if (!program.isTrivial()) {
     return;
   }
   RelNode child = calc.getInput(0);
   child = call.getPlanner().register(child, calc);
   call.transformTo(convert(child, calc.getTraitSet()));
 }
Exemplo n.º 5
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  // implement RelOptRule
  public void onMatch(RelOptRuleCall call) {
    ProjectRel origProj = call.rel(0);
    JoinRel joinRel = call.rel(1);

    // locate all fields referenced in the projection and join condition;
    // determine which inputs are referenced in the projection and
    // join condition; if all fields are being referenced and there are no
    // special expressions, no point in proceeding any further
    PushProjector pushProject =
        new PushProjector(origProj, joinRel.getCondition(), joinRel, preserveExprCondition);
    if (pushProject.locateAllRefs()) {
      return;
    }

    // create left and right projections, projecting only those
    // fields referenced on each side
    RelNode leftProjRel = pushProject.createProjectRefsAndExprs(joinRel.getLeft(), true, false);
    RelNode rightProjRel = pushProject.createProjectRefsAndExprs(joinRel.getRight(), true, true);

    // convert the join condition to reference the projected columns
    RexNode newJoinFilter = null;
    int[] adjustments = pushProject.getAdjustments();
    if (joinRel.getCondition() != null) {
      List<RelDataTypeField> projJoinFieldList = new ArrayList<RelDataTypeField>();
      projJoinFieldList.addAll(joinRel.getSystemFieldList());
      projJoinFieldList.addAll(leftProjRel.getRowType().getFieldList());
      projJoinFieldList.addAll(rightProjRel.getRowType().getFieldList());
      newJoinFilter =
          pushProject.convertRefsAndExprs(joinRel.getCondition(), projJoinFieldList, adjustments);
    }

    // create a new joinrel with the projected children
    JoinRel newJoinRel =
        new JoinRel(
            joinRel.getCluster(),
            leftProjRel,
            rightProjRel,
            newJoinFilter,
            joinRel.getJoinType(),
            Collections.<String>emptySet(),
            joinRel.isSemiJoinDone(),
            joinRel.getSystemFieldList());

    // put the original project on top of the join, converting it to
    // reference the modified projection list
    ProjectRel topProject = pushProject.createNewProject(newJoinRel, adjustments);

    call.transformTo(topProject);
  }
        public void onMatch(RelOptRuleCall call) {
          JoinRel join = (JoinRel) call.rels[0];
          List<RexNode> expList = new ArrayList<RexNode>(Arrays.asList(join.getChildExps()));
          if (reduceExpressions(join, expList)) {
            call.transformTo(
                new JoinRel(
                    join.getCluster(),
                    join.getLeft(),
                    join.getRight(),
                    expList.get(0),
                    join.getJoinType(),
                    join.getVariablesStopped()));

            // New plan is absolutely better than old plan.
            call.getPlanner().setImportance(join, 0.0);
          }
        }
        public void onMatch(RelOptRuleCall call) {
          ProjectRel project = (ProjectRel) call.rels[0];
          List<RexNode> expList = new ArrayList<RexNode>(Arrays.asList(project.getChildExps()));
          if (reduceExpressions(project, expList)) {
            call.transformTo(
                new ProjectRel(
                    project.getCluster(),
                    project.getChild(),
                    expList.toArray(new RexNode[expList.size()]),
                    project.getRowType(),
                    ProjectRel.Flags.Boxed,
                    Collections.<RelCollation>emptyList()));

            // New plan is absolutely better than old plan.
            call.getPlanner().setImportance(project, 0.0);
          }
        }
  // implement RelOptRule
  public void onMatch(RelOptRuleCall call) {
    FilterRel filterRel = call.rel(0);
    MultiJoinRel multiJoinRel = call.rel(1);

    MultiJoinRel newMultiJoinRel =
        new MultiJoinRel(
            multiJoinRel.getCluster(),
            multiJoinRel.getInputs(),
            multiJoinRel.getJoinFilter(),
            multiJoinRel.getRowType(),
            multiJoinRel.isFullOuterJoin(),
            multiJoinRel.getOuterJoinConditions(),
            multiJoinRel.getJoinTypes(),
            multiJoinRel.getProjFields(),
            multiJoinRel.getJoinFieldRefCountsMap(),
            filterRel.getCondition());

    call.transformTo(newMultiJoinRel);
  }
  // implement RelOptRule
  public void onMatch(RelOptRuleCall call) {
    final FilterRelBase filterRel = call.rel(0);
    final ProjectRelBase projRel = call.rel(1);

    // convert the filter to one that references the child of the project
    RexNode newCondition = RelOptUtil.pushFilterPastProject(filterRel.getCondition(), projRel);

    RelNode newFilterRel =
        filterFactory == null
            ? filterRel.copy(filterRel.getTraitSet(), projRel.getChild(), newCondition)
            : filterFactory.createFilter(projRel.getChild(), newCondition);

    RelNode newProjRel =
        projectFactory == null
            ? projRel.copy(
                projRel.getTraitSet(), newFilterRel, projRel.getProjects(), projRel.getRowType())
            : projectFactory.createProject(
                newFilterRel, projRel.getProjects(), projRel.getRowType().getFieldNames());

    call.transformTo(newProjRel);
  }
  // implement RelOptRule
  public void onMatch(RelOptRuleCall call) {
    CalcRel calcRel = (CalcRel) call.rels[0];
    RexProgram program = calcRel.getProgram();

    // check the projection
    List<Integer> projOrdinals = new ArrayList<Integer>();
    RelDataType outputRowType = isProjectSimple(calcRel, projOrdinals);
    if (outputRowType == null) {
      return;
    }

    RexLocalRef condition = program.getCondition();
    CompOperatorEnum compOp = CompOperatorEnum.COMP_NOOP;
    Integer[] filterOrdinals = {};
    List<RexLiteral> filterLiterals = new ArrayList<RexLiteral>();

    // check the condition
    if (condition != null) {
      RexNode filterExprs = program.expandLocalRef(condition);
      List<Integer> filterList = new ArrayList<Integer>();

      List<CompOperatorEnum> op = new ArrayList<CompOperatorEnum>();
      if (!isConditionSimple(calcRel, filterExprs, filterList, filterLiterals, op)) {
        return;
      }

      compOp = op.get(0);
      filterOrdinals = filterList.toArray(new Integer[filterList.size()]);
    }

    RelNode fennelInput =
        mergeTraitsAndConvert(
            calcRel.getTraits(), FennelRel.FENNEL_EXEC_CONVENTION, calcRel.getChild());
    if (fennelInput == null) {
      return;
    }

    Integer[] projection = projOrdinals.toArray(new Integer[projOrdinals.size()]);
    FennelReshapeRel reshapeRel =
        new FennelReshapeRel(
            calcRel.getCluster(),
            fennelInput,
            projection,
            outputRowType,
            compOp,
            filterOrdinals,
            filterLiterals,
            new FennelRelParamId[] {},
            new Integer[] {},
            null);

    call.transformTo(reshapeRel);
  }
Exemplo n.º 11
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  public void onMatch(RelOptRuleCall call) {
    JoinRel origJoinRel = (JoinRel) call.rels[0];

    RelNode left = call.rels[1];
    RelNode right = call.rels[2];

    // combine the children MultiJoinRel inputs into an array of inputs
    // for the new MultiJoinRel
    List<BitSet> projFieldsList = new ArrayList<BitSet>();
    List<int[]> joinFieldRefCountsList = new ArrayList<int[]>();
    RelNode[] newInputs =
        combineInputs(origJoinRel, left, right, projFieldsList, joinFieldRefCountsList);

    // combine the outer join information from the left and right
    // inputs, and include the outer join information from the current
    // join, if it's a left/right outer join
    RexNode[] newOuterJoinConds = new RexNode[newInputs.length];
    JoinRelType[] joinTypes = new JoinRelType[newInputs.length];
    combineOuterJoins(origJoinRel, newInputs, left, right, newOuterJoinConds, joinTypes);

    // pull up the join filters from the children MultiJoinRels and
    // combine them with the join filter associated with this JoinRel to
    // form the join filter for the new MultiJoinRel
    RexNode newJoinFilter = combineJoinFilters(origJoinRel, left, right);

    // add on the join field reference counts for the join condition
    // associated with this JoinRel
    Map<Integer, int[]> newJoinFieldRefCountsMap = new HashMap<Integer, int[]>();
    addOnJoinFieldRefCounts(
        newInputs,
        origJoinRel.getRowType().getFieldCount(),
        origJoinRel.getCondition(),
        joinFieldRefCountsList,
        newJoinFieldRefCountsMap);

    RexNode newPostJoinFilter = combinePostJoinFilters(origJoinRel, left, right);

    RelNode multiJoin =
        new MultiJoinRel(
            origJoinRel.getCluster(),
            newInputs,
            newJoinFilter,
            origJoinRel.getRowType(),
            (origJoinRel.getJoinType() == JoinRelType.FULL),
            newOuterJoinConds,
            joinTypes,
            projFieldsList.toArray(new BitSet[projFieldsList.size()]),
            newJoinFieldRefCountsMap,
            newPostJoinFilter);

    call.transformTo(multiJoin);
  }
Exemplo n.º 12
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  @Override
  public void onMatch(RelOptRuleCall call) {
    final JoinRel join = (JoinRel) call.rel(0);
    final RelNode left = call.rel(1);
    final RelNode right = call.rel(2);
    final RelTraitSet traits = join.getTraitSet().plus(DrillRel.CONVENTION);

    final RelNode convertedLeft = convert(left, traits);
    final RelNode convertedRight = convert(right, traits);
    try {
      call.transformTo(
          new DrillJoinRel(
              join.getCluster(),
              traits,
              convertedLeft,
              convertedRight,
              join.getCondition(),
              join.getJoinType()));
    } catch (InvalidRelException e) {
      tracer.warning(e.toString());
    }
  }
        public void onMatch(RelOptRuleCall call) {
          FilterRel filter = (FilterRel) call.rels[0];
          List<RexNode> expList = new ArrayList<RexNode>(Arrays.asList(filter.getChildExps()));
          RexNode newConditionExp;
          boolean reduced;
          if (reduceExpressions(filter, expList)) {
            assert (expList.size() == 1);
            newConditionExp = expList.get(0);
            reduced = true;
          } else {
            // No reduction, but let's still test the original
            // predicate to see if it was already a constant,
            // in which case we don't need any runtime decision
            // about filtering.
            newConditionExp = filter.getChildExps()[0];
            reduced = false;
          }
          if (newConditionExp.isAlwaysTrue()) {
            call.transformTo(filter.getChild());
          } else if ((newConditionExp instanceof RexLiteral)
              || RexUtil.isNullLiteral(newConditionExp, true)) {
            call.transformTo(new EmptyRel(filter.getCluster(), filter.getRowType()));
          } else if (reduced) {
            call.transformTo(CalcRel.createFilter(filter.getChild(), expList.get(0)));
          } else {
            if (newConditionExp instanceof RexCall) {
              RexCall rexCall = (RexCall) newConditionExp;
              boolean reverse = (rexCall.getOperator() == SqlStdOperatorTable.notOperator);
              if (reverse) {
                rexCall = (RexCall) rexCall.getOperands()[0];
              }
              reduceNotNullableFilter(call, filter, rexCall, reverse);
            }
            return;
          }

          // New plan is absolutely better than old plan.
          call.getPlanner().setImportance(filter, 0.0);
        }
Exemplo n.º 14
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  public void onMatch(RelOptRuleCall call) {
    assert matches(call);
    final JoinRel join = (JoinRel) call.rels[0];
    final List<Integer> leftKeys = new ArrayList<Integer>();
    final List<Integer> rightKeys = new ArrayList<Integer>();
    RelNode right = join.getRight();
    final RelNode left = join.getLeft();
    RexNode remainingCondition =
        RelOptUtil.splitJoinCondition(left, right, join.getCondition(), leftKeys, rightKeys);
    assert leftKeys.size() == rightKeys.size();
    final List<CorrelatorRel.Correlation> correlationList =
        new ArrayList<CorrelatorRel.Correlation>();
    if (leftKeys.size() > 0) {
      final RelOptCluster cluster = join.getCluster();
      final RexBuilder rexBuilder = cluster.getRexBuilder();
      int k = 0;
      RexNode condition = null;
      for (Integer leftKey : leftKeys) {
        Integer rightKey = rightKeys.get(k++);
        final String dyn_inIdStr = cluster.getQuery().createCorrel();
        final int dyn_inId = RelOptQuery.getCorrelOrdinal(dyn_inIdStr);

        // Create correlation to say 'each row, set variable #id
        // to the value of column #leftKey'.
        correlationList.add(new CorrelatorRel.Correlation(dyn_inId, leftKey));
        condition =
            RelOptUtil.andJoinFilters(
                rexBuilder,
                condition,
                rexBuilder.makeCall(
                    SqlStdOperatorTable.equalsOperator,
                    rexBuilder.makeInputRef(
                        right.getRowType().getFieldList().get(rightKey).getType(), rightKey),
                    rexBuilder.makeCorrel(
                        left.getRowType().getFieldList().get(leftKey).getType(), dyn_inIdStr)));
      }
      right = CalcRel.createFilter(right, condition);
    }
    RelNode newRel =
        new CorrelatorRel(
            join.getCluster(),
            left,
            right,
            remainingCondition,
            correlationList,
            join.getJoinType());
    call.transformTo(newRel);
  }
  public void onMatch(RelOptRuleCall call) {
    AggregateRel aggRel = call.rel(0);
    UnionRel unionRel = call.rel(1);

    if (!unionRel.all) {
      // This transformation is only valid for UNION ALL.
      // Consider t1(i) with rows (5), (5) and t2(i) with
      // rows (5), (10), and the query
      // select sum(i) from (select i from t1) union (select i from t2).
      // The correct answer is 15.  If we apply the transformation,
      // we get
      // select sum(i) from
      // (select sum(i) as i from t1) union (select sum(i) as i from t2)
      // which yields 25 (incorrect).
      return;
    }

    RelOptCluster cluster = unionRel.getCluster();

    List<AggregateCall> transformedAggCalls =
        transformAggCalls(
            aggRel.getCluster().getTypeFactory(),
            aggRel.getGroupSet().cardinality(),
            aggRel.getAggCallList());
    if (transformedAggCalls == null) {
      // we've detected the presence of something like AVG,
      // which we can't handle
      return;
    }

    boolean anyTransformed = false;

    // create corresponding aggs on top of each union child
    List<RelNode> newUnionInputs = new ArrayList<RelNode>();
    for (RelNode input : unionRel.getInputs()) {
      boolean alreadyUnique = RelMdUtil.areColumnsDefinitelyUnique(input, aggRel.getGroupSet());

      if (alreadyUnique) {
        newUnionInputs.add(input);
      } else {
        anyTransformed = true;
        newUnionInputs.add(
            new AggregateRel(cluster, input, aggRel.getGroupSet(), aggRel.getAggCallList()));
      }
    }

    if (!anyTransformed) {
      // none of the children could benefit from the pushdown,
      // so bail out (preventing the infinite loop to which most
      // planners would succumb)
      return;
    }

    // create a new union whose children are the aggs created above
    UnionRel newUnionRel = new UnionRel(cluster, newUnionInputs, true);

    AggregateRel newTopAggRel =
        new AggregateRel(cluster, newUnionRel, aggRel.getGroupSet(), transformedAggCalls);

    // In case we transformed any COUNT (which is always NOT NULL)
    // to SUM (which is always NULLABLE), cast back to keep the
    // planner happy.
    RelNode castRel = RelOptUtil.createCastRel(newTopAggRel, aggRel.getRowType(), false);

    call.transformTo(castRel);
  }
Exemplo n.º 16
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  private void onMatchRight(RelOptRuleCall call) {
    final JoinRelBase topJoin = call.rel(0);
    final JoinRelBase bottomJoin = call.rel(1);
    final RelNode relC = call.rel(2);
    final RelNode relA = bottomJoin.getLeft();
    final RelNode relB = bottomJoin.getRight();
    final RelOptCluster cluster = topJoin.getCluster();

    //        topJoin
    //        /     \
    //   bottomJoin  C
    //    /    \
    //   A      B

    final int aCount = relA.getRowType().getFieldCount();
    final int bCount = relB.getRowType().getFieldCount();
    final int cCount = relC.getRowType().getFieldCount();
    final BitSet bBitSet = BitSets.range(aCount, aCount + bCount);

    // becomes
    //
    //        newTopJoin
    //        /        \
    //   newBottomJoin  B
    //    /    \
    //   A      C

    // If either join is not inner, we cannot proceed.
    // (Is this too strict?)
    if (topJoin.getJoinType() != JoinRelType.INNER
        || bottomJoin.getJoinType() != JoinRelType.INNER) {
      return;
    }

    // Split the condition of topJoin into a conjunction. Each of the
    // parts that does not use columns from B can be pushed down.
    final List<RexNode> intersecting = new ArrayList<RexNode>();
    final List<RexNode> nonIntersecting = new ArrayList<RexNode>();
    split(topJoin.getCondition(), bBitSet, intersecting, nonIntersecting);

    // If there's nothing to push down, it's not worth proceeding.
    if (nonIntersecting.isEmpty()) {
      return;
    }

    // Split the condition of bottomJoin into a conjunction. Each of the
    // parts that use columns from B will need to be pulled up.
    final List<RexNode> bottomIntersecting = new ArrayList<RexNode>();
    final List<RexNode> bottomNonIntersecting = new ArrayList<RexNode>();
    split(bottomJoin.getCondition(), bBitSet, bottomIntersecting, bottomNonIntersecting);

    // target: | A       | C      |
    // source: | A       | B | C      |
    final Mappings.TargetMapping bottomMapping =
        Mappings.createShiftMapping(
            aCount + bCount + cCount, 0, 0, aCount, aCount, aCount + bCount, cCount);
    List<RexNode> newBottomList = new ArrayList<RexNode>();
    new RexPermuteInputsShuttle(bottomMapping, relA, relC)
        .visitList(nonIntersecting, newBottomList);
    final Mappings.TargetMapping bottomBottomMapping =
        Mappings.createShiftMapping(aCount + bCount, 0, 0, aCount);
    new RexPermuteInputsShuttle(bottomBottomMapping, relA, relC)
        .visitList(bottomNonIntersecting, newBottomList);
    final RexBuilder rexBuilder = cluster.getRexBuilder();
    RexNode newBottomCondition = RexUtil.composeConjunction(rexBuilder, newBottomList, false);
    final JoinRelBase newBottomJoin =
        bottomJoin.copy(
            bottomJoin.getTraitSet(), newBottomCondition, relA, relC, bottomJoin.getJoinType());

    // target: | A       | C      | B |
    // source: | A       | B | C      |
    final Mappings.TargetMapping topMapping =
        Mappings.createShiftMapping(
            aCount + bCount + cCount,
            0,
            0,
            aCount,
            aCount + cCount,
            aCount,
            bCount,
            aCount,
            aCount + bCount,
            cCount);
    List<RexNode> newTopList = new ArrayList<RexNode>();
    new RexPermuteInputsShuttle(topMapping, newBottomJoin, relB)
        .visitList(intersecting, newTopList);
    new RexPermuteInputsShuttle(topMapping, newBottomJoin, relB)
        .visitList(bottomIntersecting, newTopList);
    RexNode newTopCondition = RexUtil.composeConjunction(rexBuilder, newTopList, false);
    @SuppressWarnings("SuspiciousNameCombination")
    final JoinRelBase newTopJoin =
        topJoin.copy(
            topJoin.getTraitSet(), newTopCondition, newBottomJoin, relB, topJoin.getJoinType());

    assert !Mappings.isIdentity(topMapping);
    final RelNode newProject =
        RelFactories.createProject(projectFactory, newTopJoin, Mappings.asList(topMapping));

    call.transformTo(newProject);
  }
Exemplo n.º 17
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 // implement RelOptRule
 public void onMatch(RelOptRuleCall call) {
   call.transformTo(call.rels[0].getInput(0));
 }
Exemplo n.º 18
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 public void onMatch(RelOptRuleCall call) {
   RelNode input = call.rel(1);
   if (input.getTraitSet().contains(converter.getOutTrait())) {
     converter.onMatch(call);
   }
 }
 public void onMatch(RelOptRuleCall call) {
   final TableAccessRel oldRel = call.rel(0);
   RelNode newRel = oldRel.getTable().toRel(RelOptUtil.getContext(oldRel.getCluster()));
   call.transformTo(newRel);
 }