Java Code Examples for org.apache.calcite.rel.RelNode#getConvention()
The following examples show how to use
org.apache.calcite.rel.RelNode#getConvention() .
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Example 1
Source File: VolcanoPlanner.java From Bats with Apache License 2.0 | 6 votes |
/** * Finds RelSubsets in the plan that contain only rels of * {@link Convention#NONE} and boosts their importance by 25%. */ private void injectImportanceBoost() { final Set<RelSubset> requireBoost = new HashSet<>(); SUBSET_LOOP: for (RelSubset subset : ruleQueue.subsetImportances.keySet()) { for (RelNode rel : subset.getRels()) { if (rel.getConvention() != Convention.NONE) { continue SUBSET_LOOP; } } requireBoost.add(subset); } ruleQueue.boostImportance(requireBoost, 1.25); }
Example 2
Source File: DistributionTraitDef.java From dremio-oss with Apache License 2.0 | 6 votes |
@Override public boolean canConvert( RelOptPlanner planner, DistributionTrait fromTrait, DistributionTrait toTrait, RelNode fromRel) { if (fromTrait.equals(toTrait)) { return true; } // Source trait is "ANY", which is abstract type of distribution. // We do not want to convert from "ANY", since it's abstract. // Source trait should be concrete type: SINGLETON, HASH_DISTRIBUTED, etc. if (fromTrait.equals(DistributionTrait.DEFAULT) && !(fromRel instanceof RelSubset) ) { return false; } // It is only possible to apply a distribution trait to a PHYSICAL convention. if (fromRel.getConvention() != Prel.PHYSICAL) { return false; } if (fromTrait.getType() == DistributionType.BROADCAST_DISTRIBUTED && toTrait.getType() == DistributionType.HASH_DISTRIBUTED) { return false; } return true; }
Example 3
Source File: SqlHintsConverterTest.java From calcite with Apache License 2.0 | 6 votes |
@Override public RelNode convert(RelNode rel) { LogicalJoin join = (LogicalJoin) rel; assertThat(join.getHints().size(), is(1)); assertThat(join.getHints().get(0), is(expectedHint)); List<RelNode> newInputs = new ArrayList<>(); for (RelNode input : join.getInputs()) { if (!(input.getConvention() instanceof EnumerableConvention)) { input = convert( input, input.getTraitSet() .replace(EnumerableConvention.INSTANCE)); } newInputs.add(input); } final RelOptCluster cluster = join.getCluster(); final RelNode left = newInputs.get(0); final RelNode right = newInputs.get(1); final JoinInfo info = join.analyzeCondition(); return EnumerableHashJoin.create( left, right, info.getEquiCondition(left, right, cluster.getRexBuilder()), join.getVariablesSet(), join.getJoinType()); }
Example 4
Source File: PruneEmptyRules.java From calcite with Apache License 2.0 | 5 votes |
public void onMatch(RelOptRuleCall call) { SingleRel singleRel = call.rel(0); RelNode emptyValues = call.builder().push(singleRel).empty().build(); RelTraitSet traits = singleRel.getTraitSet(); // propagate all traits (except convention) from the original singleRel into the empty values if (emptyValues.getConvention() != null) { traits = traits.replace(emptyValues.getConvention()); } emptyValues = emptyValues.copy(traits, Collections.emptyList()); call.transformTo(emptyValues); }
Example 5
Source File: JdbcRules.java From calcite with Apache License 2.0 | 5 votes |
/** * Converts a {@code Join} into a {@code JdbcJoin}. * * @param join Join operator to convert * @param convertInputTraits Whether to convert input to {@code join}'s * JDBC convention * @return A new JdbcJoin */ public RelNode convert(Join join, boolean convertInputTraits) { final List<RelNode> newInputs = new ArrayList<>(); for (RelNode input : join.getInputs()) { if (convertInputTraits && input.getConvention() != getOutTrait()) { input = convert(input, input.getTraitSet().replace(out)); } newInputs.add(input); } if (convertInputTraits && !canJoinOnCondition(join.getCondition())) { return null; } try { return new JdbcJoin( join.getCluster(), join.getTraitSet().replace(out), newInputs.get(0), newInputs.get(1), join.getCondition(), join.getVariablesSet(), join.getJoinType()); } catch (InvalidRelException e) { LOGGER.debug(e.toString()); return null; } }
Example 6
Source File: RelSet.java From calcite with Apache License 2.0 | 5 votes |
public boolean hasNextPhysicalNode() { while (relCursor < rels.size()) { RelNode node = rels.get(relCursor); if (node instanceof PhysicalNode && node.getConvention() != Convention.NONE) { // enforcer may be manually created for some reason if (relCursor < getSeedSize() || !node.isEnforcer()) { return true; } } relCursor++; } return false; }
Example 7
Source File: JoinAssociateRule.java From Bats with Apache License 2.0 | 4 votes |
public void onMatch(final RelOptRuleCall call) { final Join topJoin = call.rel(0); final Join bottomJoin = call.rel(1); final RelNode relA = bottomJoin.getLeft(); final RelNode relB = bottomJoin.getRight(); final RelSubset relC = call.rel(2); final RelOptCluster cluster = topJoin.getCluster(); final RexBuilder rexBuilder = cluster.getRexBuilder(); if (relC.getConvention() != relA.getConvention()) { // relC could have any trait-set. But if we're matching say // EnumerableConvention, we're only interested in enumerable subsets. return; } // topJoin // / \ // bottomJoin C // / \ // A B final int aCount = relA.getRowType().getFieldCount(); final int bCount = relB.getRowType().getFieldCount(); final int cCount = relC.getRowType().getFieldCount(); final ImmutableBitSet aBitSet = ImmutableBitSet.range(0, aCount); final ImmutableBitSet bBitSet = ImmutableBitSet.range(aCount, aCount + bCount); if (!topJoin.getSystemFieldList().isEmpty()) { // FIXME Enable this rule for joins with system fields return; } // If either join is not inner, we cannot proceed. // (Is this too strict?) if (topJoin.getJoinType() != JoinRelType.INNER || bottomJoin.getJoinType() != JoinRelType.INNER) { return; } // Goal is to transform to // // newTopJoin // / \ // A newBottomJoin // / \ // B C // Split the condition of topJoin and bottomJoin into a conjunctions. A // condition can be pushed down if it does not use columns from A. final List<RexNode> top = new ArrayList<>(); final List<RexNode> bottom = new ArrayList<>(); JoinPushThroughJoinRule.split(topJoin.getCondition(), aBitSet, top, bottom); JoinPushThroughJoinRule.split(bottomJoin.getCondition(), aBitSet, top, bottom); // Mapping for moving conditions from topJoin or bottomJoin to // newBottomJoin. // target: | B | C | // source: | A | B | C | final Mappings.TargetMapping bottomMapping = Mappings.createShiftMapping( aCount + bCount + cCount, 0, aCount, bCount, bCount, aCount + bCount, cCount); final List<RexNode> newBottomList = new ArrayList<>(); new RexPermuteInputsShuttle(bottomMapping, relB, relC) .visitList(bottom, newBottomList); RexNode newBottomCondition = RexUtil.composeConjunction(rexBuilder, newBottomList); final Join newBottomJoin = bottomJoin.copy(bottomJoin.getTraitSet(), newBottomCondition, relB, relC, JoinRelType.INNER, false); // Condition for newTopJoin consists of pieces from bottomJoin and topJoin. // Field ordinals do not need to be changed. RexNode newTopCondition = RexUtil.composeConjunction(rexBuilder, top); @SuppressWarnings("SuspiciousNameCombination") final Join newTopJoin = topJoin.copy(topJoin.getTraitSet(), newTopCondition, relA, newBottomJoin, JoinRelType.INNER, false); call.transformTo(newTopJoin); }
Example 8
Source File: DrillDistributionTraitDef.java From Bats with Apache License 2.0 | 4 votes |
@Override public RelNode convert( RelOptPlanner planner, RelNode rel, DrillDistributionTrait toDist, boolean allowInfiniteCostConverters) { DrillDistributionTrait currentDist = rel.getTraitSet().getTrait(DrillDistributionTraitDef.INSTANCE); // Source and Target have the same trait. if (currentDist.equals(toDist)) { return rel; } // Source trait is "ANY", which is abstract type of distribution. // We do not want to convert from "ANY", since it's abstract. // Source trait should be concrete type: SINGLETON, HASH_DISTRIBUTED, etc. if (currentDist.equals(DrillDistributionTrait.DEFAULT) && !(rel instanceof RelSubset) ) { return null; } // It is only possible to apply a distribution trait to a DRILL_PHYSICAL convention. if (rel.getConvention() != Prel.DRILL_PHYSICAL) { return null; } switch(toDist.getType()){ // UnionExchange, HashToRandomExchange, OrderedPartitionExchange and BroadcastExchange destroy the ordering property, // therefore RelCollation is set to default, which is EMPTY. case SINGLETON: return new UnionExchangePrel(rel.getCluster(), planner.emptyTraitSet().plus(Prel.DRILL_PHYSICAL).plus(toDist), rel); case HASH_DISTRIBUTED: return new HashToRandomExchangePrel(rel.getCluster(), planner.emptyTraitSet().plus(Prel.DRILL_PHYSICAL).plus(toDist), rel, toDist.getFields()); case RANGE_DISTRIBUTED: // NOTE: earlier, for Range Distribution we were creating an OrderedPartitionExchange; however that operator is not actually // used in any of the query plans because Drill's Sort does not do range based sorting (it does a HashToRandomExchange followed // by a Sort). Here, we are generating a RangePartitionExchange instead of OrderedPartitionExchange. The run-time implementation // of RPE is a much simpler operator..it just does 'bucketing' based on ranges. Also, it allows a parameter to specify the // partitioning function whereas the OPE does a much more complex inferencing to determine which partition goes where. In future, // if we do want to leverage OPE then we could create a new type of distribution trait or make the DistributionType a // class instead of a simple enum and then we can distinguish whether an OPE or RPE is needed. return new RangePartitionExchangePrel(rel.getCluster(), planner.emptyTraitSet().plus(Prel.DRILL_PHYSICAL).plus(toDist), rel, toDist.getFields(), toDist.getPartitionFunction()); case BROADCAST_DISTRIBUTED: return new BroadcastExchangePrel(rel.getCluster(), planner.emptyTraitSet().plus(Prel.DRILL_PHYSICAL).plus(toDist), rel); case ANY: // If target is "any", any input would satisfy "any". Return input directly. return rel; default: return null; } }
Example 9
Source File: JoinAssociateRule.java From calcite with Apache License 2.0 | 4 votes |
public void onMatch(final RelOptRuleCall call) { final Join topJoin = call.rel(0); final Join bottomJoin = call.rel(1); final RelNode relA = bottomJoin.getLeft(); final RelNode relB = bottomJoin.getRight(); final RelSubset relC = call.rel(2); final RelOptCluster cluster = topJoin.getCluster(); final RexBuilder rexBuilder = cluster.getRexBuilder(); if (relC.getConvention() != relA.getConvention()) { // relC could have any trait-set. But if we're matching say // EnumerableConvention, we're only interested in enumerable subsets. return; } // topJoin // / \ // bottomJoin C // / \ // A B final int aCount = relA.getRowType().getFieldCount(); final int bCount = relB.getRowType().getFieldCount(); final int cCount = relC.getRowType().getFieldCount(); final ImmutableBitSet aBitSet = ImmutableBitSet.range(0, aCount); final ImmutableBitSet bBitSet = ImmutableBitSet.range(aCount, aCount + bCount); if (!topJoin.getSystemFieldList().isEmpty()) { // FIXME Enable this rule for joins with system fields return; } // If either join is not inner, we cannot proceed. // (Is this too strict?) if (topJoin.getJoinType() != JoinRelType.INNER || bottomJoin.getJoinType() != JoinRelType.INNER) { return; } // Goal is to transform to // // newTopJoin // / \ // A newBottomJoin // / \ // B C // Split the condition of topJoin and bottomJoin into a conjunctions. A // condition can be pushed down if it does not use columns from A. final List<RexNode> top = new ArrayList<>(); final List<RexNode> bottom = new ArrayList<>(); JoinPushThroughJoinRule.split(topJoin.getCondition(), aBitSet, top, bottom); JoinPushThroughJoinRule.split(bottomJoin.getCondition(), aBitSet, top, bottom); // Mapping for moving conditions from topJoin or bottomJoin to // newBottomJoin. // target: | B | C | // source: | A | B | C | final Mappings.TargetMapping bottomMapping = Mappings.createShiftMapping( aCount + bCount + cCount, 0, aCount, bCount, bCount, aCount + bCount, cCount); final List<RexNode> newBottomList = new RexPermuteInputsShuttle(bottomMapping, relB, relC) .visitList(bottom); RexNode newBottomCondition = RexUtil.composeConjunction(rexBuilder, newBottomList); final Join newBottomJoin = bottomJoin.copy(bottomJoin.getTraitSet(), newBottomCondition, relB, relC, JoinRelType.INNER, false); // Condition for newTopJoin consists of pieces from bottomJoin and topJoin. // Field ordinals do not need to be changed. RexNode newTopCondition = RexUtil.composeConjunction(rexBuilder, top); @SuppressWarnings("SuspiciousNameCombination") final Join newTopJoin = topJoin.copy(topJoin.getTraitSet(), newTopCondition, relA, newBottomJoin, JoinRelType.INNER, false); call.transformTo(newTopJoin); }
Example 10
Source File: EnumerableJoinRule.java From calcite with Apache License 2.0 | 4 votes |
@Override public RelNode convert(RelNode rel) { LogicalJoin join = (LogicalJoin) rel; List<RelNode> newInputs = new ArrayList<>(); for (RelNode input : join.getInputs()) { if (!(input.getConvention() instanceof EnumerableConvention)) { input = convert( input, input.getTraitSet() .replace(EnumerableConvention.INSTANCE)); } newInputs.add(input); } final RexBuilder rexBuilder = join.getCluster().getRexBuilder(); final RelNode left = newInputs.get(0); final RelNode right = newInputs.get(1); final JoinInfo info = join.analyzeCondition(); // If the join has equiKeys (i.e. complete or partial equi-join), // create an EnumerableHashJoin, which supports all types of joins, // even if the join condition contains partial non-equi sub-conditions; // otherwise (complete non-equi-join), create an EnumerableNestedLoopJoin, // since a hash join strategy in this case would not be beneficial. final boolean hasEquiKeys = !info.leftKeys.isEmpty() && !info.rightKeys.isEmpty(); if (hasEquiKeys) { // Re-arrange condition: first the equi-join elements, then the non-equi-join ones (if any); // this is not strictly necessary but it will be useful to avoid spurious errors in the // unit tests when verifying the plan. final RexNode equi = info.getEquiCondition(left, right, rexBuilder); final RexNode condition; if (info.isEqui()) { condition = equi; } else { final RexNode nonEqui = RexUtil.composeConjunction(rexBuilder, info.nonEquiConditions); condition = RexUtil.composeConjunction(rexBuilder, Arrays.asList(equi, nonEqui)); } return EnumerableHashJoin.create( left, right, condition, join.getVariablesSet(), join.getJoinType()); } return EnumerableNestedLoopJoin.create( left, right, join.getCondition(), join.getVariablesSet(), join.getJoinType()); }