EQL: Propagate key constraints through the query (#62073)

Since join keys are common across all queries in a Join/Sequence, any
constraint applied on one query needs to be obeyed but all the other
queries.
This PR enhances the optimizer to propagate such constraints across
all queries so they get pushed down to the actual generated ES queries.

Fix #58937

(cherry picked from commit 4afa5debc199c132c07015bfae17952c40a21e5d)
This commit is contained in:
Costin Leau 2020-09-08 17:33:15 +03:00 committed by Costin Leau
parent 057bf3f7d5
commit 0f9532689f
2 changed files with 565 additions and 44 deletions

View File

@ -16,10 +16,14 @@ import org.elasticsearch.xpack.eql.util.MathUtils;
import org.elasticsearch.xpack.eql.util.StringUtils;
import org.elasticsearch.xpack.ql.expression.Expression;
import org.elasticsearch.xpack.ql.expression.Literal;
import org.elasticsearch.xpack.ql.expression.NamedExpression;
import org.elasticsearch.xpack.ql.expression.Order;
import org.elasticsearch.xpack.ql.expression.Order.NullsPosition;
import org.elasticsearch.xpack.ql.expression.Order.OrderDirection;
import org.elasticsearch.xpack.ql.expression.predicate.Predicates;
import org.elasticsearch.xpack.ql.expression.predicate.logical.And;
import org.elasticsearch.xpack.ql.expression.predicate.logical.Not;
import org.elasticsearch.xpack.ql.expression.predicate.logical.Or;
import org.elasticsearch.xpack.ql.expression.predicate.nulls.IsNotNull;
import org.elasticsearch.xpack.ql.expression.predicate.nulls.IsNull;
import org.elasticsearch.xpack.ql.expression.predicate.operator.comparison.BinaryComparison;
@ -51,6 +55,7 @@ import java.util.Arrays;
import java.util.List;
import static java.util.Collections.singletonList;
import static java.util.stream.Collectors.toList;
public class Optimizer extends RuleExecutor<LogicalPlan> {
@ -74,11 +79,15 @@ public class Optimizer extends RuleExecutor<LogicalPlan> {
new ReplaceNullChecks(),
new PropagateEquals(),
new CombineBinaryComparisons(),
new PushDownAndCombineFilters(),
// prune/elimination
new PruneFilters(),
new PruneLiteralsInOrderBy(),
new CombineLimits());
Batch constraints = new Batch("Infer constraints", Limiter.ONCE,
new PropagateJoinKeyConstraints());
Batch ordering = new Batch("Implicit Order",
new SortByLimit(),
new PushDownOrderBy());
@ -91,7 +100,7 @@ public class Optimizer extends RuleExecutor<LogicalPlan> {
Batch label = new Batch("Set as Optimized", Limiter.ONCE,
new SetAsOptimized());
return Arrays.asList(substitutions, operators, ordering, local, label);
return Arrays.asList(substitutions, operators, constraints, operators, ordering, local, label);
}
private static class ReplaceWildcards extends OptimizerRule<Filter> {
@ -152,6 +161,25 @@ public class Optimizer extends RuleExecutor<LogicalPlan> {
}
}
static class PushDownAndCombineFilters extends OptimizerRule<Filter> {
@Override
protected LogicalPlan rule(Filter filter) {
LogicalPlan child = filter.child();
LogicalPlan plan = filter;
if (child instanceof Filter) {
Filter f = (Filter) child;
plan = new Filter(f.source(), f.child(), new And(f.source(), f.condition(), filter.condition()));
} else if (child instanceof UnaryPlan) {
UnaryPlan up = (UnaryPlan) child;
plan = child.replaceChildren(singletonList(new Filter(filter.source(), up.child(), filter.condition())));
}
return plan;
}
}
static class PruneFilters extends org.elasticsearch.xpack.ql.optimizer.OptimizerRules.PruneFilters {
@Override
@ -237,6 +265,101 @@ public class Optimizer extends RuleExecutor<LogicalPlan> {
}
}
/**
* Any condition applied on a join/sequence key, gets propagated to all rules.
*/
static class PropagateJoinKeyConstraints extends OptimizerRule<Join> {
class Constraint {
private final Expression condition;
private final KeyedFilter keyedFilter;
private final int keyPosition;
Constraint(Expression condition, KeyedFilter filter, int keyPosition) {
this.condition = condition;
this.keyedFilter = filter;
this.keyPosition = keyPosition;
}
Expression constraintFor(KeyedFilter keyed) {
if (keyed == keyedFilter) {
return null;
}
Expression localKey = keyed.keys().get(keyPosition);
Expression key = keyedFilter.keys().get(keyPosition);
Expression newCond = condition.transformDown(e -> key.semanticEquals(e) ? localKey : e);
return newCond;
}
@Override
public String toString() {
return condition.toString();
}
}
@Override
protected LogicalPlan rule(Join join) {
List<Constraint> constraints = new ArrayList<>();
// collect constraints for each filter
join.queries().forEach(k ->
k.forEachDown(f -> constraints.addAll(detectKeyConstraints(f.condition(), k))
, Filter.class));
if (constraints.isEmpty() == false) {
List<KeyedFilter> queries = join.queries().stream()
.map(k -> addConstraint(k, constraints))
.collect(toList());
join = join.with(queries, join.until(), join.direction());
}
return join;
}
private List<Constraint> detectKeyConstraints(Expression condition, KeyedFilter filter) {
List<Constraint> constraints = new ArrayList<>();
List<? extends NamedExpression> keys = filter.keys();
List<Expression> and = Predicates.splitAnd(condition);
for (Expression exp : and) {
// if there are no conjunction and at least one key matches, save the expression along with the key
// and its ordinal so it can be replaced
if (exp.anyMatch(Or.class::isInstance) == false) {
// comparisons against variables are not done
// hence why on the first key match, the expression is picked up
exp.anyMatch(e -> {
for (int i = 0; i < keys.size(); i++) {
Expression key = keys.get(i);
if (e.semanticEquals(key)) {
constraints.add(new Constraint(exp, filter, i));
return true;
}
}
return false;
});
}
}
return constraints;
}
// adapt constraint to the given filter by replacing the keys accordingly in the expressions
private KeyedFilter addConstraint(KeyedFilter k, List<Constraint> constraints) {
Expression constraint = Predicates.combineAnd(constraints.stream()
.map(c -> c.constraintFor(k))
.filter(c -> c != null)
.collect(toList()));
return constraint != null
? new KeyedFilter(k.source(), new Filter(k.source(), k.child(), constraint), k.keys(), k.timestamp(), k.tiebreaker())
: k;
}
}
/**
* Align the implicit order with the limit (head means ASC or tail means DESC).
*/

View File

@ -22,15 +22,21 @@ import org.elasticsearch.xpack.eql.plan.physical.LocalRelation;
import org.elasticsearch.xpack.eql.stats.Metrics;
import org.elasticsearch.xpack.ql.expression.Attribute;
import org.elasticsearch.xpack.ql.expression.EmptyAttribute;
import org.elasticsearch.xpack.ql.expression.Expression;
import org.elasticsearch.xpack.ql.expression.FieldAttribute;
import org.elasticsearch.xpack.ql.expression.Literal;
import org.elasticsearch.xpack.ql.expression.NamedExpression;
import org.elasticsearch.xpack.ql.expression.Order;
import org.elasticsearch.xpack.ql.expression.Order.NullsPosition;
import org.elasticsearch.xpack.ql.expression.Order.OrderDirection;
import org.elasticsearch.xpack.ql.expression.predicate.logical.And;
import org.elasticsearch.xpack.ql.expression.predicate.logical.Not;
import org.elasticsearch.xpack.ql.expression.predicate.logical.Or;
import org.elasticsearch.xpack.ql.expression.predicate.nulls.IsNotNull;
import org.elasticsearch.xpack.ql.expression.predicate.nulls.IsNull;
import org.elasticsearch.xpack.ql.expression.predicate.operator.comparison.Equals;
import org.elasticsearch.xpack.ql.expression.predicate.operator.comparison.GreaterThan;
import org.elasticsearch.xpack.ql.expression.predicate.operator.comparison.LessThan;
import org.elasticsearch.xpack.ql.expression.predicate.regex.Like;
import org.elasticsearch.xpack.ql.index.EsIndex;
import org.elasticsearch.xpack.ql.index.IndexResolution;
@ -41,20 +47,25 @@ import org.elasticsearch.xpack.ql.plan.logical.OrderBy;
import org.elasticsearch.xpack.ql.plan.logical.Project;
import org.elasticsearch.xpack.ql.plan.logical.UnaryPlan;
import org.elasticsearch.xpack.ql.plan.logical.UnresolvedRelation;
import org.elasticsearch.xpack.ql.type.DataTypes;
import org.elasticsearch.xpack.ql.type.EsField;
import org.elasticsearch.xpack.ql.type.TypesTests;
import java.time.ZoneId;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import java.util.stream.Stream;
import static java.util.Arrays.asList;
import static java.util.Collections.emptyList;
import static java.util.Collections.emptyMap;
import static java.util.Collections.singletonList;
import static java.util.stream.Collectors.toList;
import static org.elasticsearch.xpack.eql.EqlTestUtils.TEST_CFG_CASE_INSENSITIVE;
import static org.elasticsearch.xpack.ql.TestUtils.UTC;
import static org.elasticsearch.xpack.ql.expression.Literal.TRUE;
import static org.elasticsearch.xpack.ql.tree.Source.EMPTY;
import static org.elasticsearch.xpack.ql.type.DataTypes.INTEGER;
public class OptimizerTests extends ESTestCase {
@ -102,6 +113,7 @@ public class OptimizerTests extends ESTestCase {
assertEquals(((FieldAttribute) check.field()).name(), "command_line");
}
}
public void testIsNotNull() {
List<String> tests = Arrays.asList(
"foo where command_line != null",
@ -231,8 +243,398 @@ public class OptimizerTests extends ESTestCase {
assertEquals("Incorrect limit", limit, lo.limit().fold());
}
public void testSkipQueryOnLimitZero() {
KeyedFilter rule1 = keyedFilter(new LocalRelation(EMPTY, emptyList()));
KeyedFilter rule2 = keyedFilter(basicFilter(new IsNull(EMPTY, TRUE)));
KeyedFilter until = keyedFilter(basicFilter(Literal.FALSE));
Sequence s = new Sequence(EMPTY, asList(rule1, rule2), until, TimeValue.MINUS_ONE, timestamp(), tiebreaker(), OrderDirection.ASC);
LogicalPlan optimized = optimizer.optimize(s);
assertEquals(LocalRelation.class, optimized.getClass());
}
public void testSortByLimit() {
Project p = new Project(EMPTY, rel(), emptyList());
OrderBy o = new OrderBy(EMPTY, p, singletonList(new Order(EMPTY, tiebreaker(), OrderDirection.ASC, NullsPosition.FIRST)));
Tail t = new Tail(EMPTY, new Literal(EMPTY, 1, INTEGER), o);
LogicalPlan optimized = new Optimizer.SortByLimit().rule(t);
assertEquals(LimitWithOffset.class, optimized.getClass());
LimitWithOffset l = (LimitWithOffset) optimized;
assertOrder(l, OrderDirection.DESC);
}
public void testPushdownOrderBy() {
Filter filter = basicFilter(new IsNull(EMPTY, TRUE));
KeyedFilter rule1 = keyedFilter(filter);
KeyedFilter rule2 = keyedFilter(filter);
Sequence s = sequence(rule1, rule2);
OrderBy o = new OrderBy(EMPTY, s, singletonList(new Order(EMPTY, tiebreaker(), OrderDirection.DESC, NullsPosition.FIRST)));
LogicalPlan optimized = new Optimizer.PushDownOrderBy().rule(o);
assertEquals(Sequence.class, optimized.getClass());
Sequence seq = (Sequence) optimized;
assertOrder(seq.until(), OrderDirection.ASC);
assertOrder(seq.queries().get(0), OrderDirection.DESC);
assertOrder(seq.queries().get(1), OrderDirection.ASC);
}
/**
* Filter X
* Filter Y
* ==
* Filter X and Y
*/
public void testCombineFilters() {
Expression left = new IsNull(EMPTY, TRUE);
Expression right = equalsExpression();
Filter filterChild = basicFilter(left);
Filter filterParent = new Filter(EMPTY, filterChild, right);
LogicalPlan result = new Optimizer.PushDownAndCombineFilters().apply(filterParent);
assertEquals(Filter.class, result.getClass());
Expression condition = ((Filter) result).condition();
assertEquals(And.class, condition.getClass());
And and = (And) condition;
assertEquals(left, and.left());
assertEquals(right, and.right());
}
/**
* Filter X
* UnaryNode
* LeafNode
* ==
* UnaryNode
* Filter X
* LeafNode
*/
public void testPushDownFilterUnary() {
Expression left = new IsNull(EMPTY, TRUE);
OrderBy order = new OrderBy(EMPTY, rel(), emptyList());
Filter filter = new Filter(EMPTY, order, left);
LogicalPlan result = new Optimizer.PushDownAndCombineFilters().apply(filter);
assertEquals(OrderBy.class, result.getClass());
OrderBy o = (OrderBy) result;
assertEquals(Filter.class, o.child().getClass());
Filter f = (Filter) o.child();
assertEquals(rel(), f.child());
assertEquals(filter.condition(), f.condition());
}
/**
* Filter
* LeafNode
* ==
* Filter
* LeafNode
*/
public void testPushDownFilterDoesNotApplyOnNonUnary() {
Expression left = new IsNull(EMPTY, TRUE);
KeyedFilter rule1 = keyedFilter(new LocalRelation(EMPTY, emptyList()));
KeyedFilter rule2 = keyedFilter(basicFilter(new IsNull(EMPTY, TRUE)));
Sequence s = sequence(rule1, rule2);
Filter filter = new Filter(EMPTY, s, left);
LogicalPlan result = new Optimizer.PushDownAndCombineFilters().apply(filter);
assertEquals(Filter.class, result.getClass());
Filter f = (Filter) result;
assertEquals(s, f.child());
}
/**
* sequence
* 1. filter a gt 1 by a
* 2. filter X by a
* ==
* sequence
* 1. filter a gt 1 by a
* 2. filter a gt 1 by a
* \filter X
*/
public void testKeySameConstraints() {
ZoneId zd = randomZone();
Attribute a = key("a");
Expression keyCondition = gtExpression(a);
Expression filter = equalsExpression();
KeyedFilter rule1 = keyedFilter(basicFilter(keyCondition), a);
KeyedFilter rule2 = keyedFilter(basicFilter(filter), a);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
assertEquals(rule1, queries.get(0));
KeyedFilter query2 = queries.get(1);
assertEquals(keyCondition, filterCondition(query2.child()));
assertEquals(filter, filterCondition(query2.child().children().get(0)));
}
/**
* sequence
* 1. filter a gt 1 by a
* 2. filter b == true by b
* ==
* sequence
* 1. filter a == true by a
* \filter a gt 1
* 2. filter b gt 1 by b
* \filter b == true
*/
public void testSameTwoKeysConstraints() {
Attribute a = key("a");
Attribute b = key("b");
Expression keyACondition = gtExpression(a);
Expression keyBCondition = new Equals(EMPTY, b, TRUE);
KeyedFilter rule1 = keyedFilter(basicFilter(keyACondition), a, b);
KeyedFilter rule2 = keyedFilter(basicFilter(keyBCondition), a, b);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
KeyedFilter query1 = queries.get(0);
assertEquals(keyBCondition, filterCondition(query1.child()));
assertEquals(keyACondition, filterCondition(query1.child().children().get(0)));
KeyedFilter query2 = queries.get(1);
assertEquals(keyACondition, filterCondition(query2.child()));
assertEquals(keyBCondition, filterCondition(query2.child().children().get(0)));
}
/**
* sequence
* 1. filter a gt 1 by a
* 2. filter b == 1 by b
* ==
* sequence
* 1. filter a == 1 by a
* \filter a gt 1
* 2. filter b gt 1 by b
* \filter b == 1
*/
public void testDifferentOneKeyConstraints() {
ZoneId zd = randomZone();
Attribute a = key("a");
Attribute b = key("b");
Expression keyARuleACondition = gtExpression(a);
Expression keyBRuleACondition = gtExpression(b);
Expression keyARuleBCondition = new Equals(EMPTY, a, TRUE);
Expression keyBRuleBCondition = new Equals(EMPTY, b, TRUE);
KeyedFilter rule1 = keyedFilter(basicFilter(keyARuleACondition), a);
KeyedFilter rule2 = keyedFilter(basicFilter(keyBRuleBCondition), b);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
KeyedFilter query1 = queries.get(0);
assertEquals(keyARuleBCondition, filterCondition(query1.child()));
assertEquals(keyARuleACondition, filterCondition(query1.child().children().get(0)));
KeyedFilter query2 = queries.get(1);
assertEquals(keyBRuleACondition, filterCondition(query2.child()));
assertEquals(keyBRuleBCondition, filterCondition(query2.child().children().get(0)));
}
/**
* sequence
* 1. filter a1 gt 1 and a2 lt 1 by a1, a2
* 2. filter someKey == true by b1, b2
* ==
* sequence
* 1. filter a1 gt 1 and a2 gt 1 by a1, a2
* 2. filter b1 gt 1 and b2 gt 1 by b1, b2
* \filter someKey == true
*/
public void testQueryLevelTwoKeyConstraints() {
ZoneId zd = randomZone();
Attribute a1 = key("a1");
Attribute a2 = key("a2");
Attribute b1 = key("b1");
Attribute b2 = key("b2");
Expression keyA1RuleACondition = gtExpression(a1);
Expression keyA2RuleACondition = new LessThan(EMPTY, a2, new Literal(EMPTY, 1, INTEGER), zd);
Expression ruleACondition = new And(EMPTY, keyA1RuleACondition, keyA2RuleACondition);
Expression ruleBCondition = new Equals(EMPTY, key("someKey"), TRUE);
KeyedFilter rule1 = keyedFilter(basicFilter(ruleACondition), a1, a2);
KeyedFilter rule2 = keyedFilter(basicFilter(ruleBCondition), b1, b2);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
KeyedFilter query1 = queries.get(0);
assertEquals(rule1, query1);
KeyedFilter query2 = queries.get(1);
// rewrite constraints for key B
Expression keyB1RuleACondition = gtExpression(b1);
Expression keyB2RuleACondition = new LessThan(EMPTY, b2, new Literal(EMPTY, 1, INTEGER), zd);
assertEquals(new And(EMPTY, keyB1RuleACondition, keyB2RuleACondition), filterCondition(query2.child()));
assertEquals(ruleBCondition, filterCondition(query2.child().children().get(0)));
}
/**
* Key conditions inside a disjunction (OR) are ignored
* <p>
* sequence
* 1. filter a gt 1 OR x == 1 by a
* 2. filter x == 1 by b
* ==
* same
*/
public void testSkipKeySameWithDisjunctionConstraints() {
ZoneId zd = randomZone();
Attribute a = key("a");
Expression keyCondition = gtExpression(a);
Expression filter = equalsExpression();
Expression cond = new Or(EMPTY, filter, keyCondition);
KeyedFilter rule1 = keyedFilter(basicFilter(cond), a);
KeyedFilter rule2 = keyedFilter(basicFilter(filter), a);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
assertEquals(rule1, queries.get(0));
assertEquals(rule2, queries.get(1));
}
/**
* Key conditions inside a conjunction (AND) are picked up
* <p>
* sequence
* 1. filter a gt 1 and x == 1 by a
* 2. filter x == 1 by b
* ==
* sequence
* 1. filter a gt 1 and x == 1 by a
* 2. filter b gt 1 by b
* \filter x == 1
*/
public void testExtractKeySameFromDisjunction() {
ZoneId zd = randomZone();
Attribute a = key("a");
Expression keyCondition = gtExpression(a);
Expression filter = equalsExpression();
Expression cond = new And(EMPTY, filter, keyCondition);
KeyedFilter rule1 = keyedFilter(basicFilter(cond), a);
KeyedFilter rule2 = keyedFilter(basicFilter(filter), a);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
assertEquals(rule1, queries.get(0));
KeyedFilter query2 = queries.get(1);
LogicalPlan child2 = query2.child();
Expression keyRuleBCondition = gtExpression(a);
assertEquals(keyRuleBCondition, filterCondition(child2));
assertEquals(filter, filterCondition(child2.children().get(0)));
}
/**
* Multiple key conditions inside a conjunction (AND) are picked up
* <p>
* sequence
* 1. filter a gt 1 and x by a
* 2. filter x by b
* =
* sequence
* 1. filter a gt 1 and x by a
* 2. filter b gt 1 by b
* \filter x
*/
public void testDifferentKeyFromDisjunction() {
Attribute a = key("a");
Attribute b = key("b");
Expression keyARuleACondition = gtExpression(a);
Expression filter = equalsExpression();
Expression cond = new And(EMPTY, filter, new And(EMPTY, keyARuleACondition, filter));
KeyedFilter rule1 = keyedFilter(basicFilter(cond), a);
KeyedFilter rule2 = keyedFilter(basicFilter(filter), b);
Sequence s = sequence(rule1, rule2);
LogicalPlan result = new Optimizer.PropagateJoinKeyConstraints().apply(s);
assertEquals(Sequence.class, result.getClass());
Sequence seq = (Sequence) result;
List<KeyedFilter> queries = seq.queries();
assertEquals(rule1, queries.get(0));
KeyedFilter query2 = queries.get(1);
LogicalPlan child2 = query2.child();
Expression keyRuleBCondition = gtExpression(b);
assertEquals(keyRuleBCondition, filterCondition(child2));
assertEquals(filter, filterCondition(child2.children().get(0)));
}
private static Attribute timestamp() {
return new FieldAttribute(EMPTY, "test", new EsField("field", DataTypes.INTEGER, emptyMap(), true));
return new FieldAttribute(EMPTY, "test", new EsField("field", INTEGER, emptyMap(), true));
}
private static Attribute tiebreaker() {
@ -247,52 +649,22 @@ public class OptimizerTests extends ESTestCase {
return new KeyedFilter(EMPTY, child, emptyList(), timestamp(), tiebreaker());
}
public void testSkipQueryOnLimitZero() {
KeyedFilter rule1 = keyedFilter(new LocalRelation(EMPTY, emptyList()));
KeyedFilter rule2 = keyedFilter(new Filter(EMPTY, rel(), new IsNull(EMPTY, Literal.TRUE)));
KeyedFilter until = keyedFilter(new Filter(EMPTY, rel(), Literal.FALSE));
Sequence s = new Sequence(EMPTY, asList(rule1, rule2), until, TimeValue.MINUS_ONE, timestamp(), tiebreaker(), OrderDirection.ASC);
LogicalPlan optimized = optimizer.optimize(s);
assertEquals(LocalRelation.class, optimized.getClass());
private static KeyedFilter keyedFilter(LogicalPlan child, NamedExpression... keys) {
return new KeyedFilter(EMPTY, child, asList(keys), timestamp(), tiebreaker());
}
public void testSortByLimit() {
Project p = new Project(EMPTY, rel(), emptyList());
OrderBy o = new OrderBy(EMPTY, p, singletonList(new Order(EMPTY, tiebreaker(), OrderDirection.ASC, NullsPosition.FIRST)));
Tail t = new Tail(EMPTY, new Literal(EMPTY, 1, DataTypes.INTEGER), o);
LogicalPlan optimized = new Optimizer.SortByLimit().rule(t);
assertEquals(LimitWithOffset.class, optimized.getClass());
LimitWithOffset l = (LimitWithOffset) optimized;
assertOrder(l, OrderDirection.DESC);
private static Attribute key(String name) {
return new FieldAttribute(EMPTY, name, new EsField(name, INTEGER, emptyMap(), true));
}
public void testPushdownOrderBy() {
Filter filter = new Filter(EMPTY, rel(), new IsNull(EMPTY, Literal.TRUE));
KeyedFilter rule1 = keyedFilter(filter);
KeyedFilter rule2 = keyedFilter(filter);
KeyedFilter until = keyedFilter(filter);
Sequence s = new Sequence(EMPTY, asList(rule1, rule2), until, TimeValue.MINUS_ONE, timestamp(), tiebreaker(), OrderDirection.ASC);
OrderBy o = new OrderBy(EMPTY, s, singletonList(new Order(EMPTY, tiebreaker(), OrderDirection.DESC, NullsPosition.FIRST)));
LogicalPlan optimized = new Optimizer.PushDownOrderBy().rule(o);
assertEquals(Sequence.class, optimized.getClass());
Sequence seq = (Sequence) optimized;
assertOrder(seq.until(), OrderDirection.ASC);
assertOrder(seq.queries().get(0), OrderDirection.DESC);
assertOrder(seq.queries().get(1), OrderDirection.ASC);
}
private void assertOrder(UnaryPlan plan, OrderDirection direction) {
private static void assertOrder(UnaryPlan plan, OrderDirection direction) {
assertEquals(OrderBy.class, plan.child().getClass());
OrderBy orderBy = (OrderBy) plan.child();
Order order = orderBy.order().get(0);
assertEquals(direction, order.direction());
}
private LogicalPlan defaultPipes(LogicalPlan plan) {
private static LogicalPlan defaultPipes(LogicalPlan plan) {
assertTrue(plan instanceof Project);
plan = ((Project) plan).child();
assertTrue(plan instanceof LimitWithOffset);
@ -300,4 +672,30 @@ public class OptimizerTests extends ESTestCase {
assertTrue(plan instanceof OrderBy);
return ((OrderBy) plan).child();
}
private static Sequence sequence(LogicalPlan... rules) {
List<KeyedFilter> collect = Stream.of(rules)
.map(r -> r instanceof KeyedFilter ? (KeyedFilter) r : keyedFilter(r))
.collect(toList());
return new Sequence(EMPTY, collect, keyedFilter(rel()), TimeValue.MINUS_ONE, timestamp(), tiebreaker(), OrderDirection.ASC);
}
private static Expression filterCondition(LogicalPlan plan) {
assertEquals(Filter.class, plan.getClass());
Filter f = (Filter) plan;
return f.condition();
}
private static Filter basicFilter(Expression filter) {
return new Filter(EMPTY, rel(), filter);
}
private static Equals equalsExpression() {
return new Equals(EMPTY, timestamp(), TRUE);
}
private static GreaterThan gtExpression(Attribute b) {
return new GreaterThan(EMPTY, b, new Literal(EMPTY, 1, INTEGER), UTC);
}
}