Java Code Examples for org.apache.calcite.rel.RelNode#copy()
The following examples show how to use
org.apache.calcite.rel.RelNode#copy() .
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Example 1
| Source File: RelOptUtil.java From calcite with Apache License 2.0 | 6 votes |
|
/** Helper for {@link #replace}. */
private static RelNode replaceRecurse(
RelNode query, RelNode find, RelNode replace) {
if (query == find) {
return replace;
}
final List<RelNode> inputs = query.getInputs();
if (!inputs.isEmpty()) {
final List<RelNode> newInputs = new ArrayList<>();
for (RelNode input : inputs) {
newInputs.add(replaceRecurse(input, find, replace));
}
if (!newInputs.equals(inputs)) {
return query.copy(query.getTraitSet(), newInputs);
}
}
return query;
}
Example 2
| Source File: RelOptUtil.java From calcite with Apache License 2.0 | 6 votes |
|
/**
* Visits a particular child of a parent.
*/
protected RelNode visitChild(RelNode parent, int i, RelNode child) {
appendPath.add(i);
try {
RelNode child2 = child.accept(this);
if (child2 != child) {
final List<RelNode> newInputs = new ArrayList<>(parent.getInputs());
newInputs.set(i, child2);
return parent.copy(parent.getTraitSet(), newInputs);
}
return parent;
} finally {
// Remove the last element.
appendPath.remove(appendPath.size() - 1);
}
}
Example 3
| Source File: RelOptUtil.java From Bats with Apache License 2.0 | 6 votes |
|
/** Helper for {@link #replace}. */
private static RelNode replaceRecurse(RelNode query, RelNode find, RelNode replace) {
if (query == find) {
return replace;
}
final List<RelNode> inputs = query.getInputs();
if (!inputs.isEmpty()) {
final List<RelNode> newInputs = new ArrayList<>();
for (RelNode input : inputs) {
newInputs.add(replaceRecurse(input, find, replace));
}
if (!newInputs.equals(inputs)) {
return query.copy(query.getTraitSet(), newInputs);
}
}
return query;
}
Example 4
| Source File: SubQueryDecorrelator.java From flink with Apache License 2.0 | 6 votes |
|
/** Fallback if none of the other {@code decorrelateRel} methods match. */
public Frame decorrelateRel(RelNode rel) {
RelNode newRel = rel.copy(rel.getTraitSet(), rel.getInputs());
if (rel.getInputs().size() > 0) {
List<RelNode> oldInputs = rel.getInputs();
List<RelNode> newInputs = new ArrayList<>();
for (int i = 0; i < oldInputs.size(); ++i) {
final Frame frame = getInvoke(oldInputs.get(i));
if (frame == null || frame.c != null) {
// if input is not rewritten, or if it produces correlated variables, terminate rewrite
return null;
}
newInputs.add(frame.r);
newRel.replaceInput(i, frame.r);
}
if (!Util.equalShallow(oldInputs, newInputs)) {
newRel = rel.copy(rel.getTraitSet(), newInputs);
}
}
// the output position should not change since there are no corVars coming from below.
return new Frame(rel, newRel, null, identityMap(rel.getRowType().getFieldCount()));
}
Example 5
| Source File: StatelessRelShuttleImpl.java From dremio-oss with Apache License 2.0 | 5 votes |
|
@Override
protected RelNode visitChild(RelNode parent, int i, RelNode child) {
RelNode child2 = child.accept(this);
if (child2 != child) {
final List<RelNode> newInputs = new ArrayList<>(parent.getInputs());
newInputs.set(i, child2);
return parent.copy(parent.getTraitSet(), newInputs);
}
return parent;
}
Example 6
| Source File: RelOptUtil.java From calcite with Apache License 2.0 | 5 votes |
|
/**
* Returns a shallow copy of a relational expression with a particular
* input replaced.
*/
public static RelNode replaceInput(
RelNode parent, int ordinal, RelNode newInput) {
final List<RelNode> inputs = new ArrayList<>(parent.getInputs());
if (inputs.get(ordinal) == newInput) {
return parent;
}
inputs.set(ordinal, newInput);
return parent.copy(parent.getTraitSet(), inputs);
}
Example 7
| Source File: RelDecorrelator.java From calcite with Apache License 2.0 | 5 votes |
|
/** Fallback if none of the other {@code decorrelateRel} methods match. */
public Frame decorrelateRel(RelNode rel) {
RelNode newRel = rel.copy(rel.getTraitSet(), rel.getInputs());
if (rel.getInputs().size() > 0) {
List<RelNode> oldInputs = rel.getInputs();
List<RelNode> newInputs = new ArrayList<>();
for (int i = 0; i < oldInputs.size(); ++i) {
final Frame frame = getInvoke(oldInputs.get(i), rel);
if (frame == null || !frame.corDefOutputs.isEmpty()) {
// if input is not rewritten, or if it produces correlated
// variables, terminate rewrite
return null;
}
newInputs.add(frame.r);
newRel.replaceInput(i, frame.r);
}
if (!Util.equalShallow(oldInputs, newInputs)) {
newRel = rel.copy(rel.getTraitSet(), newInputs);
}
}
// the output position should not change since there are no corVars
// coming from below.
return register(rel, newRel, identityMap(rel.getRowType().getFieldCount()),
ImmutableSortedMap.of());
}
Example 8
| 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 9
| Source File: CrelUniqifier.java From dremio-oss with Apache License 2.0 | 5 votes |
|
@Override
public RelNode visit(RelNode other) {
if(!data.add(other)) {
if (other instanceof LogicalTableScan) {
// LogicalTableScan does not have implementation of a deep copy. Create a new instance.
other = LogicalTableScan.create(other.getCluster(), other.getTable());
} else {
other = other.copy(other.getTraitSet(), other.getInputs());
}
}
return super.visit(other);
}
Example 10
| Source File: RelDecorrelator.java From flink with Apache License 2.0 | 5 votes |
|
/** Fallback if none of the other {@code decorrelateRel} methods match. */
public Frame decorrelateRel(RelNode rel) {
RelNode newRel = rel.copy(rel.getTraitSet(), rel.getInputs());
if (rel.getInputs().size() > 0) {
List<RelNode> oldInputs = rel.getInputs();
List<RelNode> newInputs = new ArrayList<>();
for (int i = 0; i < oldInputs.size(); ++i) {
final Frame frame = getInvoke(oldInputs.get(i), rel);
if (frame == null || !frame.corDefOutputs.isEmpty()) {
// if input is not rewritten, or if it produces correlated
// variables, terminate rewrite
return null;
}
newInputs.add(frame.r);
newRel.replaceInput(i, frame.r);
}
if (!Util.equalShallow(oldInputs, newInputs)) {
newRel = rel.copy(rel.getTraitSet(), newInputs);
}
}
// the output position should not change since there are no corVars
// coming from below.
return register(rel, newRel, identityMap(rel.getRowType().getFieldCount()),
ImmutableSortedMap.of());
}
Example 11
| Source File: RelDecorrelator.java From flink with Apache License 2.0 | 5 votes |
|
/** Fallback if none of the other {@code decorrelateRel} methods match. */
public Frame decorrelateRel(RelNode rel) {
RelNode newRel = rel.copy(rel.getTraitSet(), rel.getInputs());
if (rel.getInputs().size() > 0) {
List<RelNode> oldInputs = rel.getInputs();
List<RelNode> newInputs = new ArrayList<>();
for (int i = 0; i < oldInputs.size(); ++i) {
final Frame frame = getInvoke(oldInputs.get(i), rel);
if (frame == null || !frame.corDefOutputs.isEmpty()) {
// if input is not rewritten, or if it produces correlated
// variables, terminate rewrite
return null;
}
newInputs.add(frame.r);
newRel.replaceInput(i, frame.r);
}
if (!Util.equalShallow(oldInputs, newInputs)) {
newRel = rel.copy(rel.getTraitSet(), newInputs);
}
}
// the output position should not change since there are no corVars
// coming from below.
return register(rel, newRel, identityMap(rel.getRowType().getFieldCount()),
ImmutableSortedMap.of());
}
Example 12
| Source File: RelOptUtil.java From calcite with Apache License 2.0 | 5 votes |
|
/**
* Visits a particular child of a parent.
*/
protected RelNode visitChild(RelNode parent, int i, RelNode child) {
inheritPaths.forEach(inheritPath -> inheritPath.right.push(i));
try {
RelNode child2 = child.accept(this);
if (child2 != child) {
final List<RelNode> newInputs = new ArrayList<>(parent.getInputs());
newInputs.set(i, child2);
return parent.copy(parent.getTraitSet(), newInputs);
}
return parent;
} finally {
inheritPaths.forEach(inheritPath -> inheritPath.right.pop());
}
}
Example 13
| Source File: RelStructuredTypeFlattener.java From Bats with Apache License 2.0 | 5 votes |
|
public void rewriteGeneric(RelNode rel) {
RelNode newRel = rel.copy(rel.getTraitSet(), rel.getInputs());
List<RelNode> oldInputs = rel.getInputs();
for (int i = 0; i < oldInputs.size(); ++i) {
newRel.replaceInput(i, getNewForOldRel(oldInputs.get(i)));
}
setNewForOldRel(rel, newRel);
}
Example 14
| Source File: RelDecorrelator.java From Bats with Apache License 2.0 | 5 votes |
|
/** Fallback if none of the other {@code decorrelateRel} methods match. */
public Frame decorrelateRel(RelNode rel) {
RelNode newRel = rel.copy(rel.getTraitSet(), rel.getInputs());
if (rel.getInputs().size() > 0) {
List<RelNode> oldInputs = rel.getInputs();
List<RelNode> newInputs = new ArrayList<>();
for (int i = 0; i < oldInputs.size(); ++i) {
final Frame frame = getInvoke(oldInputs.get(i), rel);
if (frame == null || !frame.corDefOutputs.isEmpty()) {
// if input is not rewritten, or if it produces correlated
// variables, terminate rewrite
return null;
}
newInputs.add(frame.r);
newRel.replaceInput(i, frame.r);
}
if (!Util.equalShallow(oldInputs, newInputs)) {
newRel = rel.copy(rel.getTraitSet(), newInputs);
}
}
// the output position should not change since there are no corVars
// coming from below.
return register(rel, newRel, identityMap(rel.getRowType().getFieldCount()), ImmutableSortedMap.of());
}
Example 15
| Source File: AbstractMaterializedViewRule.java From Bats with Apache License 2.0 | 4 votes |
|
@Override
protected RelNode rewriteQuery(RelBuilder relBuilder, RexBuilder rexBuilder, RexSimplify simplify,
RelMetadataQuery mq, RexNode compensationColumnsEquiPred, RexNode otherCompensationPred,
Project topProject, RelNode node, BiMap<RelTableRef, RelTableRef> viewToQueryTableMapping,
EquivalenceClasses viewEC, EquivalenceClasses queryEC) {
// Our target node is the node below the root, which should have the maximum
// number of available expressions in the tree in order to maximize our
// number of rewritings.
// We create a project on top. If the program is available, we execute
// it to maximize rewriting opportunities. For instance, a program might
// pull up all the expressions that are below the aggregate so we can
// introduce compensation filters easily. This is important depending on
// the planner strategy.
RelNode newNode = node;
RelNode target = node;
if (unionRewritingPullProgram != null) {
final HepPlanner tmpPlanner = new HepPlanner(unionRewritingPullProgram);
tmpPlanner.setRoot(newNode);
newNode = tmpPlanner.findBestExp();
target = newNode.getInput(0);
}
// All columns required by compensating predicates must be contained
// in the query.
List<RexNode> queryExprs = extractReferences(rexBuilder, target);
if (!compensationColumnsEquiPred.isAlwaysTrue()) {
compensationColumnsEquiPred = rewriteExpression(rexBuilder, mq, target, target, queryExprs,
viewToQueryTableMapping.inverse(), queryEC, false, compensationColumnsEquiPred);
if (compensationColumnsEquiPred == null) {
// Skip it
return null;
}
}
// For the rest, we use the query equivalence classes
if (!otherCompensationPred.isAlwaysTrue()) {
otherCompensationPred = rewriteExpression(rexBuilder, mq, target, target, queryExprs,
viewToQueryTableMapping.inverse(), viewEC, true, otherCompensationPred);
if (otherCompensationPred == null) {
// Skip it
return null;
}
}
final RexNode queryCompensationPred = RexUtil.not(RexUtil.composeConjunction(rexBuilder,
ImmutableList.of(compensationColumnsEquiPred, otherCompensationPred)));
// Generate query rewriting.
RelNode rewrittenPlan = relBuilder.push(target)
.filter(simplify.simplifyUnknownAsFalse(queryCompensationPred)).build();
if (unionRewritingPullProgram != null) {
rewrittenPlan = newNode.copy(newNode.getTraitSet(), ImmutableList.of(rewrittenPlan));
}
if (topProject != null) {
return topProject.copy(topProject.getTraitSet(), ImmutableList.of(rewrittenPlan));
}
return rewrittenPlan;
}
Example 16
| Source File: HepPlanner.java From calcite with Apache License 2.0 | 4 votes |
|
private HepRelVertex addRelToGraph(
RelNode rel) {
// Check if a transformation already produced a reference
// to an existing vertex.
if (graph.vertexSet().contains(rel)) {
return (HepRelVertex) rel;
}
// Recursively add children, replacing this rel's inputs
// with corresponding child vertices.
final List<RelNode> inputs = rel.getInputs();
final List<RelNode> newInputs = new ArrayList<>();
for (RelNode input1 : inputs) {
HepRelVertex childVertex = addRelToGraph(input1);
newInputs.add(childVertex);
}
if (!Util.equalShallow(inputs, newInputs)) {
RelNode oldRel = rel;
rel = rel.copy(rel.getTraitSet(), newInputs);
onCopy(oldRel, rel);
}
// Compute digest first time we add to DAG,
// otherwise can't get equivVertex for common sub-expression
rel.recomputeDigest();
// try to find equivalent rel only if DAG is allowed
if (!noDag) {
// Now, check if an equivalent vertex already exists in graph.
HepRelVertex equivVertex = mapDigestToVertex.get(rel.getRelDigest());
if (equivVertex != null) {
// Use existing vertex.
return equivVertex;
}
}
// No equivalence: create a new vertex to represent this rel.
HepRelVertex newVertex = new HepRelVertex(rel);
graph.addVertex(newVertex);
updateVertex(newVertex, rel);
for (RelNode input : rel.getInputs()) {
graph.addEdge(newVertex, (HepRelVertex) input);
}
nTransformations++;
return newVertex;
}
Example 17
| Source File: MaterializedViewJoinRule.java From calcite with Apache License 2.0 | 4 votes |
|
@Override protected RelNode rewriteQuery(
RelBuilder relBuilder,
RexBuilder rexBuilder,
RexSimplify simplify,
RelMetadataQuery mq,
RexNode compensationColumnsEquiPred,
RexNode otherCompensationPred,
Project topProject,
RelNode node,
BiMap<RelTableRef, RelTableRef> viewToQueryTableMapping,
EquivalenceClasses viewEC, EquivalenceClasses queryEC) {
// Our target node is the node below the root, which should have the maximum
// number of available expressions in the tree in order to maximize our
// number of rewritings.
// We create a project on top. If the program is available, we execute
// it to maximize rewriting opportunities. For instance, a program might
// pull up all the expressions that are below the aggregate so we can
// introduce compensation filters easily. This is important depending on
// the planner strategy.
RelNode newNode = node;
RelNode target = node;
if (unionRewritingPullProgram != null) {
final HepPlanner tmpPlanner = new HepPlanner(unionRewritingPullProgram);
tmpPlanner.setRoot(newNode);
newNode = tmpPlanner.findBestExp();
target = newNode.getInput(0);
}
// All columns required by compensating predicates must be contained
// in the query.
List<RexNode> queryExprs = extractReferences(rexBuilder, target);
if (!compensationColumnsEquiPred.isAlwaysTrue()) {
compensationColumnsEquiPred = rewriteExpression(rexBuilder, mq,
target, target, queryExprs, viewToQueryTableMapping.inverse(), queryEC, false,
compensationColumnsEquiPred);
if (compensationColumnsEquiPred == null) {
// Skip it
return null;
}
}
// For the rest, we use the query equivalence classes
if (!otherCompensationPred.isAlwaysTrue()) {
otherCompensationPred = rewriteExpression(rexBuilder, mq,
target, target, queryExprs, viewToQueryTableMapping.inverse(), viewEC, true,
otherCompensationPred);
if (otherCompensationPred == null) {
// Skip it
return null;
}
}
final RexNode queryCompensationPred = RexUtil.not(
RexUtil.composeConjunction(rexBuilder,
ImmutableList.of(compensationColumnsEquiPred,
otherCompensationPred)));
// Generate query rewriting.
RelNode rewrittenPlan = relBuilder
.push(target)
.filter(simplify.simplifyUnknownAsFalse(queryCompensationPred))
.build();
if (unionRewritingPullProgram != null) {
rewrittenPlan = newNode.copy(
newNode.getTraitSet(), ImmutableList.of(rewrittenPlan));
}
if (topProject != null) {
return topProject.copy(topProject.getTraitSet(), ImmutableList.of(rewrittenPlan));
}
return rewrittenPlan;
}
Example 18
| Source File: MaterializedViewAggregateRule.java From calcite with Apache License 2.0 | 4 votes |
|
@Override protected RelNode createUnion(RelBuilder relBuilder, RexBuilder rexBuilder,
RelNode topProject, RelNode unionInputQuery, RelNode unionInputView) {
// Union
relBuilder.push(unionInputQuery);
relBuilder.push(unionInputView);
relBuilder.union(true);
List<RexNode> exprList = new ArrayList<>(relBuilder.peek().getRowType().getFieldCount());
List<String> nameList = new ArrayList<>(relBuilder.peek().getRowType().getFieldCount());
for (int i = 0; i < relBuilder.peek().getRowType().getFieldCount(); i++) {
// We can take unionInputQuery as it is query based.
RelDataTypeField field = unionInputQuery.getRowType().getFieldList().get(i);
exprList.add(
rexBuilder.ensureType(
field.getType(),
rexBuilder.makeInputRef(relBuilder.peek(), i),
true));
nameList.add(field.getName());
}
relBuilder.project(exprList, nameList);
// Rollup aggregate
Aggregate aggregate = (Aggregate) unionInputQuery;
final ImmutableBitSet groupSet = ImmutableBitSet.range(aggregate.getGroupCount());
final List<AggCall> aggregateCalls = new ArrayList<>();
for (int i = 0; i < aggregate.getAggCallList().size(); i++) {
AggregateCall aggCall = aggregate.getAggCallList().get(i);
if (aggCall.isDistinct()) {
// Cannot ROLLUP distinct
return null;
}
SqlAggFunction rollupAgg =
getRollup(aggCall.getAggregation());
if (rollupAgg == null) {
// Cannot rollup this aggregate, bail out
return null;
}
final RexInputRef operand =
rexBuilder.makeInputRef(relBuilder.peek(),
aggregate.getGroupCount() + i);
aggregateCalls.add(
relBuilder.aggregateCall(rollupAgg, operand)
.distinct(aggCall.isDistinct())
.approximate(aggCall.isApproximate())
.as(aggCall.name));
}
RelNode prevNode = relBuilder.peek();
RelNode result = relBuilder
.aggregate(relBuilder.groupKey(groupSet), aggregateCalls)
.build();
if (prevNode == result && groupSet.cardinality() != result.getRowType().getFieldCount()) {
// Aggregate was not inserted but we need to prune columns
result = relBuilder
.push(result)
.project(relBuilder.fields(groupSet))
.build();
}
if (topProject != null) {
// Top project
return topProject.copy(topProject.getTraitSet(), ImmutableList.of(result));
}
// Result
return result;
}
Example 19
| Source File: HepPlanner.java From Bats with Apache License 2.0 | 4 votes |
|
private HepRelVertex addRelToGraph(
RelNode rel) {
// Check if a transformation already produced a reference
// to an existing vertex.
if (graph.vertexSet().contains(rel)) {
return (HepRelVertex) rel;
}
// Recursively add children, replacing this rel's inputs
// with corresponding child vertices.
final List<RelNode> inputs = rel.getInputs();
final List<RelNode> newInputs = new ArrayList<>();
for (RelNode input1 : inputs) {
HepRelVertex childVertex = addRelToGraph(input1);
newInputs.add(childVertex);
}
if (!Util.equalShallow(inputs, newInputs)) {
RelNode oldRel = rel;
rel = rel.copy(rel.getTraitSet(), newInputs);
onCopy(oldRel, rel);
}
// Compute digest first time we add to DAG,
// otherwise can't get equivVertex for common sub-expression
rel.recomputeDigest();
// try to find equivalent rel only if DAG is allowed
if (!noDag) {
// Now, check if an equivalent vertex already exists in graph.
String digest = rel.getDigest();
HepRelVertex equivVertex = mapDigestToVertex.get(digest);
if (equivVertex != null) {
// Use existing vertex.
return equivVertex;
}
}
// No equivalence: create a new vertex to represent this rel.
HepRelVertex newVertex = new HepRelVertex(rel);
graph.addVertex(newVertex);
updateVertex(newVertex, rel);
for (RelNode input : rel.getInputs()) {
graph.addEdge(newVertex, (HepRelVertex) input);
}
nTransformations++;
return newVertex;
}
Example 20
| Source File: AbstractMaterializedViewRule.java From Bats with Apache License 2.0 | 4 votes |
|
@Override
protected RelNode createUnion(RelBuilder relBuilder, RexBuilder rexBuilder, RelNode topProject,
RelNode unionInputQuery, RelNode unionInputView) {
// Union
relBuilder.push(unionInputQuery);
relBuilder.push(unionInputView);
relBuilder.union(true);
List<RexNode> exprList = new ArrayList<>(relBuilder.peek().getRowType().getFieldCount());
List<String> nameList = new ArrayList<>(relBuilder.peek().getRowType().getFieldCount());
for (int i = 0; i < relBuilder.peek().getRowType().getFieldCount(); i++) {
// We can take unionInputQuery as it is query based.
RelDataTypeField field = unionInputQuery.getRowType().getFieldList().get(i);
exprList.add(
rexBuilder.ensureType(field.getType(), rexBuilder.makeInputRef(relBuilder.peek(), i), true));
nameList.add(field.getName());
}
relBuilder.project(exprList, nameList);
// Rollup aggregate
Aggregate aggregate = (Aggregate) unionInputQuery;
final ImmutableBitSet groupSet = ImmutableBitSet.range(aggregate.getGroupCount());
final List<AggCall> aggregateCalls = new ArrayList<>();
for (int i = 0; i < aggregate.getAggCallList().size(); i++) {
AggregateCall aggCall = aggregate.getAggCallList().get(i);
if (aggCall.isDistinct()) {
// Cannot ROLLUP distinct
return null;
}
SqlAggFunction rollupAgg = getRollup(aggCall.getAggregation());
if (rollupAgg == null) {
// Cannot rollup this aggregate, bail out
return null;
}
final RexInputRef operand = rexBuilder.makeInputRef(relBuilder.peek(), aggregate.getGroupCount() + i);
aggregateCalls.add(
// TODO: handle aggregate ordering
relBuilder.aggregateCall(rollupAgg, operand).distinct(aggCall.isDistinct())
.approximate(aggCall.isApproximate()).as(aggCall.name));
}
RelNode prevNode = relBuilder.peek();
RelNode result = relBuilder.aggregate(relBuilder.groupKey(groupSet), aggregateCalls).build();
if (prevNode == result && groupSet.cardinality() != result.getRowType().getFieldCount()) {
// Aggregate was not inserted but we need to prune columns
result = relBuilder.push(result).project(relBuilder.fields(groupSet.asList())).build();
}
if (topProject != null) {
// Top project
return topProject.copy(topProject.getTraitSet(), ImmutableList.of(result));
}
// Result
return result;
}
