http://git-wip-us.apache.org/repos/asf/kylin/blob/4b413a29/atopcalcite/src/main/java/org/apache/calcite/sql2rel/SqlToRelConverter.java ---------------------------------------------------------------------- diff --git a/atopcalcite/src/main/java/org/apache/calcite/sql2rel/SqlToRelConverter.java b/atopcalcite/src/main/java/org/apache/calcite/sql2rel/SqlToRelConverter.java index ae8194c..c70cd20 100644 --- a/atopcalcite/src/main/java/org/apache/calcite/sql2rel/SqlToRelConverter.java +++ b/atopcalcite/src/main/java/org/apache/calcite/sql2rel/SqlToRelConverter.java @@ -67,7 +67,6 @@ import org.apache.calcite.rel.stream.Delta; import org.apache.calcite.rel.stream.LogicalDelta; import org.apache.calcite.rel.type.RelDataType; import org.apache.calcite.rel.type.RelDataTypeFactory; -import org.apache.calcite.rel.type.RelDataTypeFactory.FieldInfoBuilder; import org.apache.calcite.rel.type.RelDataTypeField; import org.apache.calcite.rex.RexBuilder; import org.apache.calcite.rex.RexCall; @@ -98,6 +97,7 @@ import org.apache.calcite.sql.SqlCallBinding; import org.apache.calcite.sql.SqlDataTypeSpec; import org.apache.calcite.sql.SqlDelete; import org.apache.calcite.sql.SqlDynamicParam; +import org.apache.calcite.sql.SqlExplainFormat; import org.apache.calcite.sql.SqlExplainLevel; import org.apache.calcite.sql.SqlFunction; import org.apache.calcite.sql.SqlIdentifier; @@ -163,12 +163,12 @@ import org.apache.calcite.util.trace.CalciteTrace; import com.google.common.base.Function; import com.google.common.base.Preconditions; import com.google.common.collect.ImmutableList; +import com.google.common.collect.ImmutableList.Builder; import com.google.common.collect.ImmutableMap; import com.google.common.collect.ImmutableSet; import com.google.common.collect.Iterables; import com.google.common.collect.Lists; import com.google.common.collect.Maps; -import com.google.common.collect.Sets; import org.slf4j.Logger; @@ -182,6 +182,7 @@ import java.util.Collections; import java.util.Deque; import java.util.EnumSet; import java.util.HashMap; +import java.util.LinkedHashSet; import java.util.List; import java.util.Map; import java.util.Set; @@ -191,6 +192,7 @@ import static org.apache.calcite.sql.SqlUtil.stripAs; import static org.apache.calcite.util.Static.RESOURCE; /* + * The code has synced with calcite. Hope one day, we could remove the hardcode override point. * OVERRIDE POINT: * - getInSubqueryThreshold(), was `20`, now `Integer.MAX_VALUE` * - isTrimUnusedFields(), override to false @@ -209,13 +211,18 @@ import static org.apache.calcite.util.Static.RESOURCE; public class SqlToRelConverter { //~ Static fields/initializers --------------------------------------------- - protected static final Logger SQL2REL_LOGGER = CalciteTrace.getSqlToRelTracer(); + protected static final Logger SQL2REL_LOGGER = + CalciteTrace.getSqlToRelTracer(); private static final BigDecimal TWO = BigDecimal.valueOf(2L); /** Size of the smallest IN list that will be converted to a semijoin to a * static table. */ - public static final int IN_SUBQUERY_THRESHOLD = 20; + public static final int DEFAULT_IN_SUB_QUERY_THRESHOLD = 20; + + @Deprecated // to be removed before 2.0 + public static final int DEFAULT_IN_SUBQUERY_THRESHOLD = + DEFAULT_IN_SUB_QUERY_THRESHOLD; //~ Instance fields -------------------------------------------------------- @@ -224,23 +231,20 @@ public class SqlToRelConverter { protected final Prepare.CatalogReader catalogReader; protected final RelOptCluster cluster; private DefaultValueFactory defaultValueFactory; - private SubqueryConverter subqueryConverter; + private SubQueryConverter subQueryConverter; protected final List<RelNode> leaves = new ArrayList<>(); private final List<SqlDynamicParam> dynamicParamSqlNodes = new ArrayList<>(); private final SqlOperatorTable opTab; - private boolean shouldConvertTableAccess; protected final RelDataTypeFactory typeFactory; private final SqlNodeToRexConverter exprConverter; - private boolean decorrelationEnabled; - private boolean trimUnusedFields; - private boolean shouldCreateValuesRel; - private boolean isExplain; - private int nDynamicParamsInExplain; + private int explainParamCount; + public final SqlToRelConverter.Config config; /** - * Fields used in name resolution for correlated subqueries. + * Fields used in name resolution for correlated sub-queries. */ - private final Map<CorrelationId, DeferredLookup> mapCorrelToDeferred = new HashMap<>(); + private final Map<CorrelationId, DeferredLookup> mapCorrelToDeferred = + new HashMap<>(); /** * Stack of names of datasets requested by the <code> @@ -249,18 +253,15 @@ public class SqlToRelConverter { private final Deque<String> datasetStack = new ArrayDeque<>(); /** - * Mapping of non-correlated subqueries that have been converted to their - * equivalent constants. Used to avoid re-evaluating the subquery if it's + * Mapping of non-correlated sub-queries that have been converted to their + * equivalent constants. Used to avoid re-evaluating the sub-query if it's * already been evaluated. */ - private final Map<SqlNode, RexNode> mapConvertedNonCorrSubqs = new HashMap<>(); + private final Map<SqlNode, RexNode> mapConvertedNonCorrSubqs = + new HashMap<>(); public final RelOptTable.ViewExpander viewExpander; - /** Whether to expand sub-queries. If false, each sub-query becomes a - * {@link org.apache.calcite.rex.RexSubQuery}. */ - private boolean expand = true; - //~ Constructors ----------------------------------------------------------- /** * Creates a converter. @@ -272,29 +273,53 @@ public class SqlToRelConverter { * @param rexBuilder Rex builder * @param convertletTable Expression converter */ - @Deprecated // will be removed before 2.0 - public SqlToRelConverter(RelOptTable.ViewExpander viewExpander, SqlValidator validator, Prepare.CatalogReader catalogReader, RelOptPlanner planner, RexBuilder rexBuilder, SqlRexConvertletTable convertletTable) { - this(viewExpander, validator, catalogReader, RelOptCluster.create(planner, rexBuilder), convertletTable); + @Deprecated // to be removed before 2.0 + public SqlToRelConverter( + RelOptTable.ViewExpander viewExpander, + SqlValidator validator, + Prepare.CatalogReader catalogReader, + RelOptPlanner planner, + RexBuilder rexBuilder, + SqlRexConvertletTable convertletTable) { + this(viewExpander, validator, catalogReader, + RelOptCluster.create(planner, rexBuilder), convertletTable, + Config.DEFAULT); + } + + @Deprecated // to be removed before 2.0 + public SqlToRelConverter( + RelOptTable.ViewExpander viewExpander, + SqlValidator validator, + Prepare.CatalogReader catalogReader, + RelOptCluster cluster, + SqlRexConvertletTable convertletTable) { + this(viewExpander, validator, catalogReader, cluster, convertletTable, + Config.DEFAULT); } /* Creates a converter. */ - public SqlToRelConverter(RelOptTable.ViewExpander viewExpander, SqlValidator validator, Prepare.CatalogReader catalogReader, RelOptCluster cluster, SqlRexConvertletTable convertletTable) { + public SqlToRelConverter( + RelOptTable.ViewExpander viewExpander, + SqlValidator validator, + Prepare.CatalogReader catalogReader, + RelOptCluster cluster, + SqlRexConvertletTable convertletTable, + Config config) { this.viewExpander = viewExpander; - this.opTab = (validator == null) ? SqlStdOperatorTable.instance() : validator.getOperatorTable(); + this.opTab = + (validator + == null) ? SqlStdOperatorTable.instance() + : validator.getOperatorTable(); this.validator = validator; this.catalogReader = catalogReader; this.defaultValueFactory = new NullDefaultValueFactory(); - this.subqueryConverter = new NoOpSubqueryConverter(); + this.subQueryConverter = new NoOpSubQueryConverter(); this.rexBuilder = cluster.getRexBuilder(); this.typeFactory = rexBuilder.getTypeFactory(); this.cluster = Preconditions.checkNotNull(cluster); - this.shouldConvertTableAccess = true; this.exprConverter = new SqlNodeToRexConverterImpl(convertletTable); - decorrelationEnabled = true; - trimUnusedFields = false; - shouldCreateValuesRel = true; - isExplain = false; - nDynamicParamsInExplain = 0; + this.explainParamCount = 0; + this.config = new ConfigBuilder().withConfig(config).build(); } //~ Methods ---------------------------------------------------------------- @@ -345,15 +370,15 @@ public class SqlToRelConverter { * @return the current count before the optional increment */ public int getDynamicParamCountInExplain(boolean increment) { - int retVal = nDynamicParamsInExplain; + int retVal = explainParamCount; if (increment) { - ++nDynamicParamsInExplain; + ++explainParamCount; } return retVal; } /** - * @return mapping of non-correlated subqueries that have been converted to + * @return mapping of non-correlated sub-queries that have been converted to * the constants that they evaluate to */ public Map<SqlNode, RexNode> getMapConvertedNonCorrSubqs() { @@ -361,13 +386,14 @@ public class SqlToRelConverter { } /** - * Adds to the current map of non-correlated converted subqueries the - * elements from another map that contains non-correlated subqueries that + * Adds to the current map of non-correlated converted sub-queries the + * elements from another map that contains non-correlated sub-queries that * have been converted by another SqlToRelConverter. * * @param alreadyConvertedNonCorrSubqs the other map */ - public void addConvertedNonCorrSubqs(Map<SqlNode, RexNode> alreadyConvertedNonCorrSubqs) { + public void addConvertedNonCorrSubqs( + Map<SqlNode, RexNode> alreadyConvertedNonCorrSubqs) { mapConvertedNonCorrSubqs.putAll(alreadyConvertedNonCorrSubqs); } @@ -382,51 +408,24 @@ public class SqlToRelConverter { } /** - * Sets a new SubqueryConverter. To have any effect, this must be called + * Sets a new SubQueryConverter. To have any effect, this must be called * before any convert method. * - * @param converter new SubqueryConverter + * @param converter new SubQueryConverter */ - public void setSubqueryConverter(SubqueryConverter converter) { - subqueryConverter = converter; + public void setSubQueryConverter(SubQueryConverter converter) { + subQueryConverter = converter; } /** - * Indicates that the current statement is part of an EXPLAIN PLAN statement + * Sets the number of dynamic parameters in the current EXPLAIN PLAN + * statement. * - * @param nDynamicParams number of dynamic parameters in the statement + * @param explainParamCount number of dynamic parameters in the statement */ - public void setIsExplain(int nDynamicParams) { - isExplain = true; - nDynamicParamsInExplain = nDynamicParams; - } - - /** - * Controls whether table access references are converted to physical rels - * immediately. The optimizer doesn't like leaf rels to have - * {@link Convention#NONE}. However, if we are doing further conversion - * passes (e.g. {@link RelStructuredTypeFlattener}), then we may need to - * defer conversion. To have any effect, this must be called before any - * convert method. - * - * @param enabled true for immediate conversion (the default); false to - * generate logical LogicalTableScan instances - */ - public void enableTableAccessConversion(boolean enabled) { - shouldConvertTableAccess = enabled; - } - - /** - * Controls whether instances of - * {@link org.apache.calcite.rel.logical.LogicalValues} are generated. These - * may not be supported by all physical implementations. To have any effect, - * this must be called before any convert method. - * - * @param enabled true to allow LogicalValues to be generated (the default); - * false to force substitution of Project+OneRow instead - */ - public void enableValuesRelCreation(boolean enabled) { - shouldCreateValuesRel = enabled; + public void setDynamicParamCountInExplain(int explainParamCount) { + assert config.isExplain(); + this.explainParamCount = explainParamCount; } private void checkConvertedType(SqlNode query, RelNode result) { @@ -438,24 +437,42 @@ public class SqlToRelConverter { // SQL statement is something like an INSERT which has no // validator type information associated with its result, // hence the namespace check above.) - final List<RelDataTypeField> validatedFields = validator.getValidatedNodeType(query).getFieldList(); - final RelDataType validatedRowType = validator.getTypeFactory().createStructType(Pair.right(validatedFields), SqlValidatorUtil.uniquify(Pair.left(validatedFields))); - - final List<RelDataTypeField> convertedFields = result.getRowType().getFieldList().subList(0, validatedFields.size()); - final RelDataType convertedRowType = validator.getTypeFactory().createStructType(convertedFields); - - if (!RelOptUtil.equal("validated row type", validatedRowType, "converted row type", convertedRowType, Litmus.IGNORE)) { - throw new AssertionError("Conversion to relational algebra failed to " + "preserve datatypes:\n" + "validated type:\n" + validatedRowType.getFullTypeString() + "\nconverted type:\n" + convertedRowType.getFullTypeString() + "\nrel:\n" + RelOptUtil.toString(result)); + final List<RelDataTypeField> validatedFields = + validator.getValidatedNodeType(query).getFieldList(); + final RelDataType validatedRowType = + validator.getTypeFactory().createStructType( + Pair.right(validatedFields), + SqlValidatorUtil.uniquify(Pair.left(validatedFields), + catalogReader.isCaseSensitive())); + + final List<RelDataTypeField> convertedFields = + result.getRowType().getFieldList().subList(0, validatedFields.size()); + final RelDataType convertedRowType = + validator.getTypeFactory().createStructType(convertedFields); + + if (!RelOptUtil.equal("validated row type", validatedRowType, + "converted row type", convertedRowType, Litmus.IGNORE)) { + throw new AssertionError("Conversion to relational algebra failed to " + + "preserve datatypes:\n" + + "validated type:\n" + + validatedRowType.getFullTypeString() + + "\nconverted type:\n" + + convertedRowType.getFullTypeString() + + "\nrel:\n" + + RelOptUtil.toString(result)); } } - public RelNode flattenTypes(RelNode rootRel, boolean restructure) { - RelStructuredTypeFlattener typeFlattener = new RelStructuredTypeFlattener(rexBuilder, createToRelContext()); - return typeFlattener.rewrite(rootRel, restructure); + public RelNode flattenTypes( + RelNode rootRel, + boolean restructure) { + RelStructuredTypeFlattener typeFlattener = + new RelStructuredTypeFlattener(rexBuilder, createToRelContext(), restructure); + return typeFlattener.rewrite(rootRel); } /** - * If subquery is correlated and decorrelation is enabled, performs + * If sub-query is correlated and decorrelation is enabled, performs * decorrelation. * * @param query Query @@ -496,14 +513,21 @@ public class SqlToRelConverter { // Trim fields that are not used by their consumer. if (isTrimUnusedFields()) { final RelFieldTrimmer trimmer = newFieldTrimmer(); - final List<RelCollation> collations = rootRel.getTraitSet().getTraits(RelCollationTraitDef.INSTANCE); + final List<RelCollation> collations = + rootRel.getTraitSet().getTraits(RelCollationTraitDef.INSTANCE); rootRel = trimmer.trim(rootRel); - if (!ordered && collations != null && !collations.isEmpty() && !collations.equals(ImmutableList.of(RelCollations.EMPTY))) { - final RelTraitSet traitSet = rootRel.getTraitSet().replace(RelCollationTraitDef.INSTANCE, collations); + if (!ordered + && collations != null + && !collations.isEmpty() + && !collations.equals(ImmutableList.of(RelCollations.EMPTY))) { + final RelTraitSet traitSet = rootRel.getTraitSet() + .replace(RelCollationTraitDef.INSTANCE, collations); rootRel = rootRel.copy(traitSet, rootRel.getInputs()); } if (SQL2REL_LOGGER.isDebugEnabled()) { - SQL2REL_LOGGER.debug(RelOptUtil.dumpPlan("Plan after trimming unused fields", rootRel, false, SqlExplainLevel.EXPPLAN_ATTRIBUTES)); + SQL2REL_LOGGER.debug( + RelOptUtil.dumpPlan("Plan after trimming unused fields", rootRel, + SqlExplainFormat.TEXT, SqlExplainLevel.EXPPLAN_ATTRIBUTES)); } } return rootRel; @@ -515,7 +539,8 @@ public class SqlToRelConverter { * @return Field trimmer */ protected RelFieldTrimmer newFieldTrimmer() { - final RelBuilder relBuilder = RelFactories.LOGICAL_BUILDER.create(cluster, null); + final RelBuilder relBuilder = + RelFactories.LOGICAL_BUILDER.create(cluster, null); return new RelFieldTrimmer(validator, relBuilder); } @@ -530,14 +555,18 @@ public class SqlToRelConverter { * will become a JDBC result set; <code>false</code> if * the query will be part of a view. */ - public RelRoot convertQuery(SqlNode query, final boolean needsValidation, final boolean top) { + public RelRoot convertQuery( + SqlNode query, + final boolean needsValidation, + final boolean top) { SqlNode origQuery = query; /* OVERRIDE POINT */ - + if (needsValidation) { query = validator.validate(query); } - RelMetadataQuery.THREAD_PROVIDERS.set(JaninoRelMetadataProvider.of(cluster.getMetadataProvider())); + RelMetadataQuery.THREAD_PROVIDERS.set( + JaninoRelMetadataProvider.of(cluster.getMetadataProvider())); RelNode result = convertQueryRecursive(query, top, null).rel; if (top) { if (isStream(query)) { @@ -553,18 +582,23 @@ public class SqlToRelConverter { checkConvertedType(query, result); if (SQL2REL_LOGGER.isDebugEnabled()) { - SQL2REL_LOGGER.debug(RelOptUtil.dumpPlan("Plan after converting SqlNode to RelNode", result, false, SqlExplainLevel.EXPPLAN_ATTRIBUTES)); + SQL2REL_LOGGER.debug( + RelOptUtil.dumpPlan("Plan after converting SqlNode to RelNode", + result, SqlExplainFormat.TEXT, + SqlExplainLevel.EXPPLAN_ATTRIBUTES)); } final RelDataType validatedRowType = validator.getValidatedNodeType(query); - return hackSelectStar(origQuery, RelRoot.of(result, validatedRowType, query.getKind()).withCollation(collation)); + RelRoot origResult = RelRoot.of(result, validatedRowType, query.getKind()) + .withCollation(collation); + return hackSelectStar(origQuery, origResult); } /* OVERRIDE POINT */ private RelRoot hackSelectStar(SqlNode query, RelRoot root) { /* * Rel tree is like: - * + * * LogicalSort (optional) * |- LogicalProject * |- LogicalFilter (optional) @@ -580,23 +614,23 @@ public class SqlToRelConverter { } else { return root; } - + RelNode input = rootPrj.getInput(); if (!(// input.getClass().getSimpleName().equals("OLAPTableScan")// - || (input.getClass().getSimpleName().equals("LogicalFilter") && input.getInput(0).getClass().getSimpleName().equals("OLAPTableScan"))// - )) + || (input.getClass().getSimpleName().equals("LogicalFilter") && input.getInput(0).getClass().getSimpleName().equals("OLAPTableScan"))// + )) return root; if (rootPrj.getRowType().getFieldCount() < input.getRowType().getFieldCount()) return root; - + RelDataType inType = rootPrj.getRowType(); List<String> inFields = inType.getFieldNames(); List<RexNode> projExp = new ArrayList<>(); List<Pair<Integer, String>> projFields = new ArrayList<>(); - FieldInfoBuilder projTypeBuilder = getCluster().getTypeFactory().builder(); - FieldInfoBuilder validTypeBuilder = getCluster().getTypeFactory().builder(); + RelDataTypeFactory.FieldInfoBuilder projTypeBuilder = getCluster().getTypeFactory().builder(); + RelDataTypeFactory.FieldInfoBuilder validTypeBuilder = getCluster().getTypeFactory().builder(); for (int i = 0; i < inFields.size(); i++) { if (!inFields.get(i).startsWith("_KY_")) { projExp.add(rootPrj.getProjects().get(i)); @@ -611,29 +645,31 @@ public class SqlToRelConverter { if (rootSort != null) { rootSort = (LogicalSort) rootSort.copy(rootSort.getTraitSet(), rootPrj, rootSort.collation, rootSort.offset, rootSort.fetch); } - + RelDataType validRowType = getCluster().getTypeFactory().createStructType(validTypeBuilder); root = new RelRoot(rootSort == null ? rootPrj : rootSort, validRowType, root.kind, projFields, root.collation); - + validator.setValidatedNodeType(query, validRowType); - + return root; } private static boolean isStream(SqlNode query) { - return query instanceof SqlSelect && ((SqlSelect) query).isKeywordPresent(SqlSelectKeyword.STREAM); + return query instanceof SqlSelect + && ((SqlSelect) query).isKeywordPresent(SqlSelectKeyword.STREAM); } public static boolean isOrdered(SqlNode query) { switch (query.getKind()) { - case SELECT: - return ((SqlSelect) query).getOrderList() != null && ((SqlSelect) query).getOrderList().size() > 0; - case WITH: - return isOrdered(((SqlWith) query).body); - case ORDER_BY: - return ((SqlOrderBy) query).orderList.size() > 0; - default: - return false; + case SELECT: + return ((SqlSelect) query).getOrderList() != null + && ((SqlSelect) query).getOrderList().size() > 0; + case WITH: + return isOrdered(((SqlWith) query).body); + case ORDER_BY: + return ((SqlOrderBy) query).orderList.size() > 0; + default: + return false; } } @@ -663,7 +699,8 @@ public class SqlToRelConverter { /** * Factory method for creating translation workspace. */ - protected Blackboard createBlackboard(SqlValidatorScope scope, Map<String, RexNode> nameToNodeMap, boolean top) { + protected Blackboard createBlackboard(SqlValidatorScope scope, + Map<String, RexNode> nameToNodeMap, boolean top) { return new Blackboard(scope, nameToNodeMap, top); } @@ -671,25 +708,45 @@ public class SqlToRelConverter { * Implementation of {@link #convertSelect(SqlSelect, boolean)}; * derived class may override. */ - protected void convertSelectImpl(final Blackboard bb, SqlSelect select) { - convertFrom(bb, select.getFrom()); - convertWhere(bb, select.getWhere()); + protected void convertSelectImpl( + final Blackboard bb, + SqlSelect select) { + convertFrom( + bb, + select.getFrom()); + convertWhere( + bb, + select.getWhere()); final List<SqlNode> orderExprList = new ArrayList<>(); final List<RelFieldCollation> collationList = new ArrayList<>(); - gatherOrderExprs(bb, select, select.getOrderList(), orderExprList, collationList); - final RelCollation collation = cluster.traitSet().canonize(RelCollations.of(collationList)); + gatherOrderExprs( + bb, + select, + select.getOrderList(), + orderExprList, + collationList); + final RelCollation collation = + cluster.traitSet().canonize(RelCollations.of(collationList)); if (validator.isAggregate(select)) { - convertAgg(bb, select, orderExprList); + convertAgg( + bb, + select, + orderExprList); } else { - convertSelectList(bb, select, orderExprList); + convertSelectList( + bb, + select, + orderExprList); } if (select.isDistinct()) { distinctify(bb, true); } - convertOrder(select, bb, collation, orderExprList, select.getOffset(), select.getFetch()); + convertOrder( + select, bb, collation, orderExprList, select.getOffset(), + select.getFetch()); bb.setRoot(bb.root, true); } @@ -705,7 +762,9 @@ public class SqlToRelConverter { * @param bb Blackboard * @param checkForDupExprs Check for duplicate expressions */ - private void distinctify(Blackboard bb, boolean checkForDupExprs) { + private void distinctify( + Blackboard bb, + boolean checkForDupExprs) { // Look for duplicate expressions in the project. // Say we have 'select x, y, x, z'. // Then dups will be {[2, 0]} @@ -739,7 +798,9 @@ public class SqlToRelConverter { newProjects.add(RexInputRef.of2(i, fields)); } } - rel = LogicalProject.create(rel, Pair.left(newProjects), Pair.right(newProjects)); + rel = + LogicalProject.create(rel, Pair.left(newProjects), + Pair.right(newProjects)); bb.root = rel; distinctify(bb, false); rel = bb.root; @@ -750,21 +811,34 @@ public class SqlToRelConverter { for (int i = 0; i < fields.size(); i++) { final int origin = origins.get(i); RelDataTypeField field = fields.get(i); - undoProjects.add(Pair.of((RexNode) new RexInputRef(squished.get(origin), field.getType()), field.getName())); + undoProjects.add( + Pair.of( + (RexNode) new RexInputRef( + squished.get(origin), field.getType()), + field.getName())); } - rel = LogicalProject.create(rel, Pair.left(undoProjects), Pair.right(undoProjects)); - bb.setRoot(rel, false); + rel = + LogicalProject.create(rel, Pair.left(undoProjects), + Pair.right(undoProjects)); + bb.setRoot( + rel, + false); return; } // Usual case: all of the expressions in the SELECT clause are // different. - final ImmutableBitSet groupSet = ImmutableBitSet.range(rel.getRowType().getFieldCount()); - rel = createAggregate(bb, false, groupSet, ImmutableList.of(groupSet), ImmutableList.<AggregateCall> of()); - - bb.setRoot(rel, false); + final ImmutableBitSet groupSet = + ImmutableBitSet.range(rel.getRowType().getFieldCount()); + rel = + createAggregate(bb, false, groupSet, ImmutableList.of(groupSet), + ImmutableList.<AggregateCall>of()); + + bb.setRoot( + rel, + false); } private int findExpr(RexNode seek, List<RexNode> exprs, int count) { @@ -789,16 +863,29 @@ public class SqlToRelConverter { * returning first row * @param fetch Expression for number of rows to fetch */ - protected void convertOrder(SqlSelect select, Blackboard bb, RelCollation collation, List<SqlNode> orderExprList, SqlNode offset, SqlNode fetch) { - if (select.getOrderList() == null || select.getOrderList().getList().isEmpty()) { + protected void convertOrder( + SqlSelect select, + Blackboard bb, + RelCollation collation, + List<SqlNode> orderExprList, + SqlNode offset, + SqlNode fetch) { + if (select.getOrderList() == null + || select.getOrderList().getList().isEmpty()) { assert collation.getFieldCollations().isEmpty(); - if ((offset == null || ((SqlLiteral) offset).bigDecimalValue().equals(BigDecimal.ZERO)) && fetch == null) { + if ((offset == null + || ((SqlLiteral) offset).bigDecimalValue().equals(BigDecimal.ZERO)) + && fetch == null) { return; } } // Create a sorter using the previously constructed collations. - bb.setRoot(LogicalSort.create(bb.root, collation, offset == null ? null : convertExpression(offset), fetch == null ? null : convertExpression(fetch)), false); + bb.setRoot( + LogicalSort.create(bb.root, collation, + offset == null ? null : convertExpression(offset), + fetch == null ? null : convertExpression(fetch)), + false); // If extra expressions were added to the project list for sorting, // add another project to remove them. But make the collation empty, because @@ -808,11 +895,15 @@ public class SqlToRelConverter { if (orderExprList.size() > 0 && !bb.top) { final List<RexNode> exprs = new ArrayList<>(); final RelDataType rowType = bb.root.getRowType(); - final int fieldCount = rowType.getFieldCount() - orderExprList.size(); + final int fieldCount = + rowType.getFieldCount() - orderExprList.size(); for (int i = 0; i < fieldCount; i++) { exprs.add(rexBuilder.makeInputRef(bb.root, i)); } - bb.setRoot(LogicalProject.create(bb.root, exprs, rowType.getFieldNames().subList(0, fieldCount)), false); + bb.setRoot( + LogicalProject.create(bb.root, exprs, + rowType.getFieldNames().subList(0, fieldCount)), + false); } } @@ -821,16 +912,18 @@ public class SqlToRelConverter { * * @param node a RexNode tree */ - private static boolean containsInOperator(SqlNode node) { + private static boolean containsInOperator( + SqlNode node) { try { - SqlVisitor<Void> visitor = new SqlBasicVisitor<Void>() { - public Void visit(SqlCall call) { - if (call.getOperator() instanceof SqlInOperator) { - throw new Util.FoundOne(call); - } - return super.visit(call); - } - }; + SqlVisitor<Void> visitor = + new SqlBasicVisitor<Void>() { + public Void visit(SqlCall call) { + if (call.getOperator() instanceof SqlInOperator) { + throw new Util.FoundOne(call); + } + return super.visit(call); + } + }; node.accept(visitor); return false; } catch (Util.FoundOne e) { @@ -842,18 +935,21 @@ public class SqlToRelConverter { /** * Push down all the NOT logical operators into any IN/NOT IN operators. * + * @param scope Scope where {@code sqlNode} occurs * @param sqlNode the root node from which to look for NOT operators * @return the transformed SqlNode representation with NOT pushed down. */ - private static SqlNode pushDownNotForIn(SqlNode sqlNode) { + private static SqlNode pushDownNotForIn(SqlValidatorScope scope, + SqlNode sqlNode) { if ((sqlNode instanceof SqlCall) && containsInOperator(sqlNode)) { SqlCall sqlCall = (SqlCall) sqlNode; - if ((sqlCall.getOperator() == SqlStdOperatorTable.AND) || (sqlCall.getOperator() == SqlStdOperatorTable.OR)) { + if ((sqlCall.getOperator() == SqlStdOperatorTable.AND) + || (sqlCall.getOperator() == SqlStdOperatorTable.OR)) { SqlNode[] sqlOperands = ((SqlBasicCall) sqlCall).operands; for (int i = 0; i < sqlOperands.length; i++) { - sqlOperands[i] = pushDownNotForIn(sqlOperands[i]); + sqlOperands[i] = pushDownNotForIn(scope, sqlOperands[i]); } - return sqlNode; + return reg(scope, sqlNode); } else if (sqlCall.getOperator() == SqlStdOperatorTable.NOT) { SqlNode childNode = sqlCall.operand(0); assert childNode instanceof SqlCall; @@ -862,33 +958,34 @@ public class SqlToRelConverter { SqlNode[] andOperands = childSqlCall.getOperands(); SqlNode[] orOperands = new SqlNode[andOperands.length]; for (int i = 0; i < orOperands.length; i++) { - orOperands[i] = SqlStdOperatorTable.NOT.createCall(SqlParserPos.ZERO, andOperands[i]); + orOperands[i] = reg(scope, SqlStdOperatorTable.NOT.createCall(SqlParserPos.ZERO, andOperands[i])); } for (int i = 0; i < orOperands.length; i++) { - orOperands[i] = pushDownNotForIn(orOperands[i]); + orOperands[i] = pushDownNotForIn(scope, orOperands[i]); } - return SqlStdOperatorTable.OR.createCall(SqlParserPos.ZERO, orOperands[0], orOperands[1]); + return reg(scope, SqlStdOperatorTable.OR.createCall(SqlParserPos.ZERO, orOperands[0], orOperands[1])); } else if (childSqlCall.getOperator() == SqlStdOperatorTable.OR) { SqlNode[] orOperands = childSqlCall.getOperands(); SqlNode[] andOperands = new SqlNode[orOperands.length]; for (int i = 0; i < andOperands.length; i++) { - andOperands[i] = SqlStdOperatorTable.NOT.createCall(SqlParserPos.ZERO, orOperands[i]); + andOperands[i] = reg(scope, SqlStdOperatorTable.NOT.createCall(SqlParserPos.ZERO, orOperands[i])); } for (int i = 0; i < andOperands.length; i++) { - andOperands[i] = pushDownNotForIn(andOperands[i]); + andOperands[i] = pushDownNotForIn(scope, andOperands[i]); } - return SqlStdOperatorTable.AND.createCall(SqlParserPos.ZERO, andOperands[0], andOperands[1]); + return reg(scope, SqlStdOperatorTable.AND.createCall(SqlParserPos.ZERO, andOperands[0], andOperands[1])); } else if (childSqlCall.getOperator() == SqlStdOperatorTable.NOT) { SqlNode[] notOperands = childSqlCall.getOperands(); assert notOperands.length == 1; - return pushDownNotForIn(notOperands[0]); + return pushDownNotForIn(scope, notOperands[0]); } else if (childSqlCall.getOperator() instanceof SqlInOperator) { SqlNode[] inOperands = childSqlCall.getOperands(); - SqlInOperator inOp = (SqlInOperator) childSqlCall.getOperator(); + SqlInOperator inOp = + (SqlInOperator) childSqlCall.getOperator(); if (inOp.isNotIn()) { - return SqlStdOperatorTable.IN.createCall(SqlParserPos.ZERO, inOperands[0], inOperands[1]); + return reg(scope, SqlStdOperatorTable.IN.createCall(SqlParserPos.ZERO, inOperands[0], inOperands[1])); } else { - return SqlStdOperatorTable.NOT_IN.createCall(SqlParserPos.ZERO, inOperands[0], inOperands[1]); + return reg(scope, SqlStdOperatorTable.NOT_IN.createCall(SqlParserPos.ZERO, inOperands[0], inOperands[1])); } } else { // childSqlCall is "leaf" node in a logical expression tree @@ -906,18 +1003,27 @@ public class SqlToRelConverter { } } + /** Registers with the validator a {@link SqlNode} that has been created + * during the Sql-to-Rel process. */ + private static SqlNode reg(SqlValidatorScope scope, SqlNode e) { + scope.getValidator().deriveType(scope, e); + return e; + } + /** * Converts a WHERE clause. * * @param bb Blackboard * @param where WHERE clause, may be null */ - private void convertWhere(final Blackboard bb, final SqlNode where) { + private void convertWhere( + final Blackboard bb, + final SqlNode where) { if (where == null) { return; } - SqlNode newWhere = pushDownNotForIn(where); - replaceSubqueries(bb, newWhere, RelOptUtil.Logic.UNKNOWN_AS_FALSE); + SqlNode newWhere = pushDownNotForIn(bb.scope, where); + replaceSubQueries(bb, newWhere, RelOptUtil.Logic.UNKNOWN_AS_FALSE); final RexNode convertedWhere = bb.convertExpression(newWhere); // only allocate filter if the condition is not TRUE @@ -925,13 +1031,16 @@ public class SqlToRelConverter { return; } - final RelNode filter = RelOptUtil.createFilter(bb.root, convertedWhere); + final RelFactories.FilterFactory factory = + RelFactories.DEFAULT_FILTER_FACTORY; + final RelNode filter = factory.createFilter(bb.root, convertedWhere); final RelNode r; final CorrelationUse p = getCorrelationUse(bb, filter); if (p != null) { assert p.r instanceof Filter; Filter f = (Filter) p.r; - r = LogicalFilter.create(f.getInput(), f.getCondition(), ImmutableSet.of(p.id)); + r = LogicalFilter.create(f.getInput(), f.getCondition(), + ImmutableSet.of(p.id)); } else { r = filter; } @@ -939,14 +1048,17 @@ public class SqlToRelConverter { bb.setRoot(r, false); } - private void replaceSubqueries(final Blackboard bb, final SqlNode expr, RelOptUtil.Logic logic) { - findSubqueries(bb, expr, logic, false); - for (SubQuery node : bb.subqueryList) { - substituteSubquery(bb, node); + private void replaceSubQueries( + final Blackboard bb, + final SqlNode expr, + RelOptUtil.Logic logic) { + findSubQueries(bb, expr, logic, false); + for (SubQuery node : bb.subQueryList) { + substituteSubQuery(bb, node); } } - private void substituteSubquery(Blackboard bb, SubQuery subQuery) { + private void substituteSubQuery(Blackboard bb, SubQuery subQuery) { final RexNode expr = subQuery.expr; if (expr != null) { // Already done. @@ -956,220 +1068,270 @@ public class SqlToRelConverter { final SqlBasicCall call; final RelNode rel; final SqlNode query; - final Pair<RelNode, Boolean> converted; + final RelOptUtil.Exists converted; switch (subQuery.node.getKind()) { - case CURSOR: - convertCursor(bb, subQuery); - return; - - case MULTISET_QUERY_CONSTRUCTOR: - case MULTISET_VALUE_CONSTRUCTOR: - case ARRAY_QUERY_CONSTRUCTOR: - rel = convertMultisets(ImmutableList.of(subQuery.node), bb); - subQuery.expr = bb.register(rel, JoinRelType.INNER); - return; + case CURSOR: + convertCursor(bb, subQuery); + return; - case IN: - call = (SqlBasicCall) subQuery.node; - query = call.operand(1); - if (!expand && !(query instanceof SqlNodeList)) { + case MULTISET_QUERY_CONSTRUCTOR: + case MULTISET_VALUE_CONSTRUCTOR: + case ARRAY_QUERY_CONSTRUCTOR: + rel = convertMultisets(ImmutableList.of(subQuery.node), bb); + subQuery.expr = bb.register(rel, JoinRelType.INNER); return; - } - final SqlNode leftKeyNode = call.operand(0); - - final List<RexNode> leftKeys; - switch (leftKeyNode.getKind()) { - case ROW: - leftKeys = Lists.newArrayList(); - for (SqlNode sqlExpr : ((SqlBasicCall) leftKeyNode).getOperandList()) { - leftKeys.add(bb.convertExpression(sqlExpr)); - } - break; - default: - leftKeys = ImmutableList.of(bb.convertExpression(leftKeyNode)); - } - final boolean isNotIn = ((SqlInOperator) call.getOperator()).isNotIn(); - if (query instanceof SqlNodeList) { - SqlNodeList valueList = (SqlNodeList) query; - if (!containsNullLiteral(valueList) && valueList.size() < getInSubqueryThreshold()) { - // We're under the threshold, so convert to OR. - subQuery.expr = convertInToOr(bb, leftKeys, valueList, isNotIn); + case IN: + call = (SqlBasicCall) subQuery.node; + query = call.operand(1); + if (!config.isExpand() && !(query instanceof SqlNodeList)) { return; } + final SqlNode leftKeyNode = call.operand(0); + + final List<RexNode> leftKeys; + switch (leftKeyNode.getKind()) { + case ROW: + leftKeys = Lists.newArrayList(); + for (SqlNode sqlExpr : ((SqlBasicCall) leftKeyNode).getOperandList()) { + leftKeys.add(bb.convertExpression(sqlExpr)); + } + break; + default: + leftKeys = ImmutableList.of(bb.convertExpression(leftKeyNode)); + } - // Otherwise, let convertExists translate - // values list into an inline table for the - // reference to Q below. - } - - // Project out the search columns from the left side - - // Q1: - // "select from emp where emp.deptno in (select col1 from T)" - // - // is converted to - // - // "select from - // emp inner join (select distinct col1 from T)) q - // on emp.deptno = q.col1 - // - // Q2: - // "select from emp where emp.deptno not in (Q)" - // - // is converted to - // - // "select from - // emp left outer join (select distinct col1, TRUE from T) q - // on emp.deptno = q.col1 - // where emp.deptno <> null - // and q.indicator <> TRUE" - // - final boolean outerJoin = bb.subqueryNeedsOuterJoin || isNotIn || subQuery.logic == RelOptUtil.Logic.TRUE_FALSE_UNKNOWN; - final RelDataType targetRowType = SqlTypeUtil.promoteToRowType(typeFactory, validator.getValidatedNodeType(leftKeyNode), null); - converted = convertExists(query, RelOptUtil.SubqueryType.IN, subQuery.logic, outerJoin, targetRowType); - if (converted.right) { - // Generate - // emp CROSS JOIN (SELECT COUNT(*) AS c, - // COUNT(deptno) AS ck FROM dept) - final RelDataType longType = typeFactory.createSqlType(SqlTypeName.BIGINT); - final RelNode seek = converted.left.getInput(0); // fragile - final int keyCount = leftKeys.size(); - final List<Integer> args = ImmutableIntList.range(0, keyCount); - LogicalAggregate aggregate = LogicalAggregate.create(seek, false, ImmutableBitSet.of(), null, ImmutableList.of(AggregateCall.create(SqlStdOperatorTable.COUNT, false, ImmutableList.<Integer> of(), -1, longType, null), AggregateCall.create(SqlStdOperatorTable.COUNT, false, args, -1, longType, null))); - LogicalJoin join = LogicalJoin.create(bb.root, aggregate, rexBuilder.makeLiteral(true), ImmutableSet.<CorrelationId> of(), JoinRelType.INNER); - bb.setRoot(join, false); - } - RexNode rex = bb.register(converted.left, outerJoin ? JoinRelType.LEFT : JoinRelType.INNER, leftKeys); + final boolean notIn = ((SqlInOperator) call.getOperator()).isNotIn(); + if (query instanceof SqlNodeList) { + SqlNodeList valueList = (SqlNodeList) query; + if (!containsNullLiteral(valueList) + && valueList.size() < config.getInSubQueryThreshold()) { + // We're under the threshold, so convert to OR. + subQuery.expr = + convertInToOr( + bb, + leftKeys, + valueList, + notIn); + return; + } - subQuery.expr = translateIn(subQuery, bb.root, rex); - if (isNotIn) { - subQuery.expr = rexBuilder.makeCall(SqlStdOperatorTable.NOT, subQuery.expr); - } - return; + // Otherwise, let convertExists translate + // values list into an inline table for the + // reference to Q below. + } - case EXISTS: - // "select from emp where exists (select a from T)" - // - // is converted to the following if the subquery is correlated: - // - // "select from emp left outer join (select AGG_TRUE() as indicator - // from T group by corr_var) q where q.indicator is true" - // - // If there is no correlation, the expression is replaced with a - // boolean indicating whether the subquery returned 0 or >= 1 row. - call = (SqlBasicCall) subQuery.node; - query = call.operand(0); - if (!expand) { - return; - } - converted = convertExists(query, RelOptUtil.SubqueryType.EXISTS, subQuery.logic, true, null); - assert !converted.right; - if (convertNonCorrelatedSubQuery(subQuery, bb, converted.left, true)) { + // Project out the search columns from the left side + + // Q1: + // "select from emp where emp.deptno in (select col1 from T)" + // + // is converted to + // + // "select from + // emp inner join (select distinct col1 from T)) q + // on emp.deptno = q.col1 + // + // Q2: + // "select from emp where emp.deptno not in (Q)" + // + // is converted to + // + // "select from + // emp left outer join (select distinct col1, TRUE from T) q + // on emp.deptno = q.col1 + // where emp.deptno <> null + // and q.indicator <> TRUE" + // + final RelDataType targetRowType = + SqlTypeUtil.promoteToRowType(typeFactory, + validator.getValidatedNodeType(leftKeyNode), null); + converted = + convertExists(query, RelOptUtil.SubQueryType.IN, subQuery.logic, + notIn, targetRowType); + if (converted.indicator) { + // Generate + // emp CROSS JOIN (SELECT COUNT(*) AS c, + // COUNT(deptno) AS ck FROM dept) + final RelDataType longType = + typeFactory.createSqlType(SqlTypeName.BIGINT); + final RelNode seek = converted.r.getInput(0); // fragile + final int keyCount = leftKeys.size(); + final List<Integer> args = ImmutableIntList.range(0, keyCount); + LogicalAggregate aggregate = + LogicalAggregate.create(seek, false, ImmutableBitSet.of(), null, + ImmutableList.of( + AggregateCall.create(SqlStdOperatorTable.COUNT, false, + ImmutableList.<Integer>of(), -1, longType, null), + AggregateCall.create(SqlStdOperatorTable.COUNT, false, + args, -1, longType, null))); + LogicalJoin join = + LogicalJoin.create(bb.root, aggregate, rexBuilder.makeLiteral(true), + ImmutableSet.<CorrelationId>of(), JoinRelType.INNER); + bb.setRoot(join, false); + } + final RexNode rex = + bb.register(converted.r, + converted.outerJoin ? JoinRelType.LEFT : JoinRelType.INNER, + leftKeys); + + RelOptUtil.Logic logic = subQuery.logic; + switch (logic) { + case TRUE_FALSE_UNKNOWN: + case UNKNOWN_AS_TRUE: + if (!converted.indicator) { + logic = RelOptUtil.Logic.TRUE_FALSE; + } + } + subQuery.expr = translateIn(logic, bb.root, rex); + if (notIn) { + subQuery.expr = + rexBuilder.makeCall(SqlStdOperatorTable.NOT, subQuery.expr); + } return; - } - subQuery.expr = bb.register(converted.left, JoinRelType.LEFT); - return; - case SCALAR_QUERY: - // Convert the subquery. If it's non-correlated, convert it - // to a constant expression. - if (!expand) { + case EXISTS: + // "select from emp where exists (select a from T)" + // + // is converted to the following if the sub-query is correlated: + // + // "select from emp left outer join (select AGG_TRUE() as indicator + // from T group by corr_var) q where q.indicator is true" + // + // If there is no correlation, the expression is replaced with a + // boolean indicating whether the sub-query returned 0 or >= 1 row. + call = (SqlBasicCall) subQuery.node; + query = call.operand(0); + if (!config.isExpand()) { + return; + } + converted = convertExists(query, RelOptUtil.SubQueryType.EXISTS, + subQuery.logic, true, null); + assert !converted.indicator; + if (convertNonCorrelatedSubQuery(subQuery, bb, converted.r, true)) { + return; + } + subQuery.expr = bb.register(converted.r, JoinRelType.LEFT); return; - } - call = (SqlBasicCall) subQuery.node; - query = call.operand(0); - converted = convertExists(query, RelOptUtil.SubqueryType.SCALAR, subQuery.logic, true, null); - assert !converted.right; - if (convertNonCorrelatedSubQuery(subQuery, bb, converted.left, false)) { + + case SCALAR_QUERY: + // Convert the sub-query. If it's non-correlated, convert it + // to a constant expression. + if (!config.isExpand()) { + return; + } + call = (SqlBasicCall) subQuery.node; + query = call.operand(0); + converted = convertExists(query, RelOptUtil.SubQueryType.SCALAR, + subQuery.logic, true, null); + assert !converted.indicator; + if (convertNonCorrelatedSubQuery(subQuery, bb, converted.r, false)) { + return; + } + rel = convertToSingleValueSubq(query, converted.r); + subQuery.expr = bb.register(rel, JoinRelType.LEFT); return; - } - rel = convertToSingleValueSubq(query, converted.left); - subQuery.expr = bb.register(rel, JoinRelType.LEFT); - return; - case SELECT: - // This is used when converting multiset queries: - // - // select * from unnest(select multiset[deptno] from emps); - // - converted = convertExists(subQuery.node, RelOptUtil.SubqueryType.SCALAR, subQuery.logic, true, null); - assert !converted.right; - subQuery.expr = bb.register(converted.left, JoinRelType.LEFT); - return; + case SELECT: + // This is used when converting multiset queries: + // + // select * from unnest(select multiset[deptno] from emps); + // + converted = convertExists(subQuery.node, RelOptUtil.SubQueryType.SCALAR, + subQuery.logic, true, null); + assert !converted.indicator; + subQuery.expr = bb.register(converted.r, JoinRelType.LEFT); + return; - default: - throw Util.newInternal("unexpected kind of subquery :" + subQuery.node); + default: + throw Util.newInternal("unexpected kind of sub-query :" + subQuery.node); } } - private RexNode translateIn(SubQuery subQuery, RelNode root, final RexNode rex) { - switch (subQuery.logic) { - case TRUE: - return rexBuilder.makeLiteral(true); - - case UNKNOWN_AS_FALSE: - assert rex instanceof RexRangeRef; - final int fieldCount = rex.getType().getFieldCount(); - RexNode rexNode = rexBuilder.makeFieldAccess(rex, fieldCount - 1); - rexNode = rexBuilder.makeCall(SqlStdOperatorTable.IS_TRUE, rexNode); - - // Then append the IS NOT NULL(leftKeysForIn). - // - // RexRangeRef contains the following fields: - // leftKeysForIn, - // rightKeysForIn (the original subquery select list), - // nullIndicator - // - // The first two lists contain the same number of fields. - final int k = (fieldCount - 1) / 2; - for (int i = 0; i < k; i++) { - rexNode = rexBuilder.makeCall(SqlStdOperatorTable.AND, rexNode, rexBuilder.makeCall(SqlStdOperatorTable.IS_NOT_NULL, rexBuilder.makeFieldAccess(rex, i))); - } - return rexNode; - - case TRUE_FALSE_UNKNOWN: - case UNKNOWN_AS_TRUE: - // select e.deptno, - // case - // when ct.c = 0 then false - // when dt.i is not null then true - // when e.deptno is null then null - // when ct.ck < ct.c then null - // else false - // end - // from e - // cross join (select count(*) as c, count(deptno) as ck from v) as ct - // left join (select distinct deptno, true as i from v) as dt - // on e.deptno = dt.deptno - final Join join = (Join) root; - final Project left = (Project) join.getLeft(); - final RelNode leftLeft = ((Join) left.getInput()).getLeft(); - final int leftLeftCount = leftLeft.getRowType().getFieldCount(); - final RelDataType nullableBooleanType = typeFactory.createTypeWithNullability(typeFactory.createSqlType(SqlTypeName.BOOLEAN), true); - final RelDataType longType = typeFactory.createSqlType(SqlTypeName.BIGINT); - final RexNode cRef = rexBuilder.makeInputRef(root, leftLeftCount); - final RexNode ckRef = rexBuilder.makeInputRef(root, leftLeftCount + 1); - final RexNode iRef = rexBuilder.makeInputRef(root, root.getRowType().getFieldCount() - 1); - - final RexLiteral zero = rexBuilder.makeExactLiteral(BigDecimal.ZERO, longType); - final RexLiteral trueLiteral = rexBuilder.makeLiteral(true); - final RexLiteral falseLiteral = rexBuilder.makeLiteral(false); - final RexNode unknownLiteral = rexBuilder.makeNullLiteral(SqlTypeName.BOOLEAN); - - final ImmutableList.Builder<RexNode> args = ImmutableList.builder(); - args.add(rexBuilder.makeCall(SqlStdOperatorTable.EQUALS, cRef, zero), falseLiteral, rexBuilder.makeCall(SqlStdOperatorTable.IS_NOT_NULL, iRef), trueLiteral); - final JoinInfo joinInfo = join.analyzeCondition(); - for (int leftKey : joinInfo.leftKeys) { - final RexNode kRef = rexBuilder.makeInputRef(root, leftKey); - args.add(rexBuilder.makeCall(SqlStdOperatorTable.IS_NULL, kRef), unknownLiteral); - } - args.add(rexBuilder.makeCall(SqlStdOperatorTable.LESS_THAN, ckRef, cRef), unknownLiteral, falseLiteral); + private RexNode translateIn(RelOptUtil.Logic logic, RelNode root, + final RexNode rex) { + switch (logic) { + case TRUE: + return rexBuilder.makeLiteral(true); + + case TRUE_FALSE: + case UNKNOWN_AS_FALSE: + assert rex instanceof RexRangeRef; + final int fieldCount = rex.getType().getFieldCount(); + RexNode rexNode = rexBuilder.makeFieldAccess(rex, fieldCount - 1); + rexNode = rexBuilder.makeCall(SqlStdOperatorTable.IS_TRUE, rexNode); + + // Then append the IS NOT NULL(leftKeysForIn). + // + // RexRangeRef contains the following fields: + // leftKeysForIn, + // rightKeysForIn (the original sub-query select list), + // nullIndicator + // + // The first two lists contain the same number of fields. + final int k = (fieldCount - 1) / 2; + for (int i = 0; i < k; i++) { + rexNode = + rexBuilder.makeCall( + SqlStdOperatorTable.AND, + rexNode, + rexBuilder.makeCall( + SqlStdOperatorTable.IS_NOT_NULL, + rexBuilder.makeFieldAccess(rex, i))); + } + return rexNode; + + case TRUE_FALSE_UNKNOWN: + case UNKNOWN_AS_TRUE: + // select e.deptno, + // case + // when ct.c = 0 then false + // when dt.i is not null then true + // when e.deptno is null then null + // when ct.ck < ct.c then null + // else false + // end + // from e + // cross join (select count(*) as c, count(deptno) as ck from v) as ct + // left join (select distinct deptno, true as i from v) as dt + // on e.deptno = dt.deptno + final Join join = (Join) root; + final Project left = (Project) join.getLeft(); + final RelNode leftLeft = ((Join) left.getInput()).getLeft(); + final int leftLeftCount = leftLeft.getRowType().getFieldCount(); + final RelDataType longType = + typeFactory.createSqlType(SqlTypeName.BIGINT); + final RexNode cRef = rexBuilder.makeInputRef(root, leftLeftCount); + final RexNode ckRef = rexBuilder.makeInputRef(root, leftLeftCount + 1); + final RexNode iRef = + rexBuilder.makeInputRef(root, root.getRowType().getFieldCount() - 1); + + final RexLiteral zero = + rexBuilder.makeExactLiteral(BigDecimal.ZERO, longType); + final RexLiteral trueLiteral = rexBuilder.makeLiteral(true); + final RexLiteral falseLiteral = rexBuilder.makeLiteral(false); + final RexNode unknownLiteral = + rexBuilder.makeNullLiteral(SqlTypeName.BOOLEAN); + + final ImmutableList.Builder<RexNode> args = ImmutableList.builder(); + args.add(rexBuilder.makeCall(SqlStdOperatorTable.EQUALS, cRef, zero), + falseLiteral, + rexBuilder.makeCall(SqlStdOperatorTable.IS_NOT_NULL, iRef), + trueLiteral); + final JoinInfo joinInfo = join.analyzeCondition(); + for (int leftKey : joinInfo.leftKeys) { + final RexNode kRef = rexBuilder.makeInputRef(root, leftKey); + args.add(rexBuilder.makeCall(SqlStdOperatorTable.IS_NULL, kRef), + unknownLiteral); + } + args.add(rexBuilder.makeCall(SqlStdOperatorTable.LESS_THAN, ckRef, cRef), + unknownLiteral, + falseLiteral); - return rexBuilder.makeCall(nullableBooleanType, SqlStdOperatorTable.CASE, args.build()); + return rexBuilder.makeCall(SqlStdOperatorTable.CASE, args.build()); - default: - throw new AssertionError(subQuery.logic); + default: + throw new AssertionError(logic); } } @@ -1186,24 +1348,34 @@ public class SqlToRelConverter { } /** - * Determines if a subquery is non-correlated and if so, converts it to a + * Determines if a sub-query is non-correlated and if so, converts it to a * constant. * - * @param subQuery the call that references the subquery - * @param bb blackboard used to convert the subquery - * @param converted RelNode tree corresponding to the subquery - * @param isExists true if the subquery is part of an EXISTS expression - * @return if the subquery can be converted to a constant + * @param subQuery the call that references the sub-query + * @param bb blackboard used to convert the sub-query + * @param converted RelNode tree corresponding to the sub-query + * @param isExists true if the sub-query is part of an EXISTS expression + * @return Whether the sub-query can be converted to a constant */ - private boolean convertNonCorrelatedSubQuery(SubQuery subQuery, Blackboard bb, RelNode converted, boolean isExists) { + private boolean convertNonCorrelatedSubQuery( + SubQuery subQuery, + Blackboard bb, + RelNode converted, + boolean isExists) { SqlCall call = (SqlBasicCall) subQuery.node; - if (subqueryConverter.canConvertSubquery() && isSubQueryNonCorrelated(converted, bb)) { - // First check if the subquery has already been converted - // because it's a nested subquery. If so, don't re-evaluate + if (subQueryConverter.canConvertSubQuery() + && isSubQueryNonCorrelated(converted, bb)) { + // First check if the sub-query has already been converted + // because it's a nested sub-query. If so, don't re-evaluate // it again. RexNode constExpr = mapConvertedNonCorrSubqs.get(call); if (constExpr == null) { - constExpr = subqueryConverter.convertSubquery(call, this, isExists, isExplain); + constExpr = + subQueryConverter.convertSubQuery( + call, + this, + isExists, + config.isExplain()); } if (constExpr != null) { subQuery.expr = constExpr; @@ -1222,14 +1394,17 @@ public class SqlToRelConverter { * @param plan the original RelNode tree corresponding to the statement * @return the converted RelNode tree */ - public RelNode convertToSingleValueSubq(SqlNode query, RelNode plan) { + public RelNode convertToSingleValueSubq( + SqlNode query, + RelNode plan) { // Check whether query is guaranteed to produce a single value. if (query instanceof SqlSelect) { SqlSelect select = (SqlSelect) query; SqlNodeList selectList = select.getSelectList(); SqlNodeList groupList = select.getGroup(); - if ((selectList.size() == 1) && ((groupList == null) || (groupList.size() == 0))) { + if ((selectList.size() == 1) + && ((groupList == null) || (groupList.size() == 0))) { SqlNode selectExpr = selectList.get(0); if (selectExpr instanceof SqlCall) { SqlCall selectExprCall = (SqlCall) selectExpr; @@ -1240,7 +1415,8 @@ public class SqlToRelConverter { // If there is a limit with 0 or 1, // it is ensured to produce a single value - if (select.getFetch() != null && select.getFetch() instanceof SqlNumericLiteral) { + if (select.getFetch() != null + && select.getFetch() instanceof SqlNumericLiteral) { SqlNumericLiteral limitNum = (SqlNumericLiteral) select.getFetch(); if (((BigDecimal) limitNum.getValue()).intValue() < 2) { return plan; @@ -1252,13 +1428,17 @@ public class SqlToRelConverter { // it is necessary to look into the operands to determine // whether SingleValueAgg is necessary SqlCall exprCall = (SqlCall) query; - if (exprCall.getOperator() instanceof SqlValuesOperator && Util.isSingleValue(exprCall)) { + if (exprCall.getOperator() + instanceof SqlValuesOperator + && Util.isSingleValue(exprCall)) { return plan; } } // If not, project SingleValueAgg - return RelOptUtil.createSingleValueAggRel(cluster, plan); + return RelOptUtil.createSingleValueAggRel( + cluster, + plan); } /** @@ -1269,35 +1449,69 @@ public class SqlToRelConverter { * @param isNotIn is this a NOT IN operator * @return converted expression */ - private RexNode convertInToOr(final Blackboard bb, final List<RexNode> leftKeys, SqlNodeList valuesList, boolean isNotIn) { + private RexNode convertInToOr( + final Blackboard bb, + final List<RexNode> leftKeys, + SqlNodeList valuesList, + boolean isNotIn) { final List<RexNode> comparisons = new ArrayList<>(); for (SqlNode rightVals : valuesList) { RexNode rexComparison; if (leftKeys.size() == 1) { - rexComparison = rexBuilder.makeCall(SqlStdOperatorTable.EQUALS, leftKeys.get(0), rexBuilder.ensureType(leftKeys.get(0).getType(), bb.convertExpression(rightVals), true)); + rexComparison = + rexBuilder.makeCall(SqlStdOperatorTable.EQUALS, + leftKeys.get(0), + ensureSqlType(leftKeys.get(0).getType(), + bb.convertExpression(rightVals))); } else { assert rightVals instanceof SqlCall; final SqlBasicCall call = (SqlBasicCall) rightVals; - assert (call.getOperator() instanceof SqlRowOperator) && call.operandCount() == leftKeys.size(); - rexComparison = RexUtil.composeConjunction(rexBuilder, Iterables.transform(Pair.zip(leftKeys, call.getOperandList()), new Function<Pair<RexNode, SqlNode>, RexNode>() { - public RexNode apply(Pair<RexNode, SqlNode> pair) { - return rexBuilder.makeCall(SqlStdOperatorTable.EQUALS, pair.left, rexBuilder.ensureType(pair.left.getType(), bb.convertExpression(pair.right), true)); - } - }), false); + assert (call.getOperator() instanceof SqlRowOperator) + && call.operandCount() == leftKeys.size(); + rexComparison = + RexUtil.composeConjunction( + rexBuilder, + Iterables.transform( + Pair.zip(leftKeys, call.getOperandList()), + new Function<Pair<RexNode, SqlNode>, RexNode>() { + public RexNode apply(Pair<RexNode, SqlNode> pair) { + return rexBuilder.makeCall(SqlStdOperatorTable.EQUALS, + pair.left, + ensureSqlType(pair.left.getType(), + bb.convertExpression(pair.right))); + } + }), + false); } comparisons.add(rexComparison); } - RexNode result = RexUtil.composeDisjunction(rexBuilder, comparisons, true); + RexNode result = + RexUtil.composeDisjunction(rexBuilder, comparisons, true); assert result != null; if (isNotIn) { - result = rexBuilder.makeCall(SqlStdOperatorTable.NOT, result); + result = + rexBuilder.makeCall( + SqlStdOperatorTable.NOT, + result); } return result; } + /** Ensures that an expression has a given {@link SqlTypeName}, applying a + * cast if necessary. If the expression already has the right type family, + * returns the expression unchanged. */ + private RexNode ensureSqlType(RelDataType type, RexNode node) { + if (type.getSqlTypeName() == node.getType().getSqlTypeName() + || (type.getSqlTypeName() == SqlTypeName.VARCHAR + && node.getType().getSqlTypeName() == SqlTypeName.CHAR)) { + return node; + } + return rexBuilder.ensureType(type, node, true); + } + /** * Gets the list size threshold under which {@link #convertInToOr} is used. * Lists of this size or greater will instead be converted to use a join @@ -1306,15 +1520,17 @@ public class SqlToRelConverter { * predicate. A threshold of 0 forces usage of an inline table in all cases; a * threshold of Integer.MAX_VALUE forces usage of OR in all cases * - * @return threshold, default {@link #IN_SUBQUERY_THRESHOLD} + * @return threshold, default {@link #DEFAULT_IN_SUB_QUERY_THRESHOLD} */ + @Deprecated // to be removed before 2.0 protected int getInSubqueryThreshold() { - /* OVERRIDE POINT */ + //return config.getInSubQueryThreshold(); + /* OVERRIDE POINT */ return Integer.MAX_VALUE; } /** - * Converts an EXISTS or IN predicate into a join. For EXISTS, the subquery + * Converts an EXISTS or IN predicate into a join. For EXISTS, the sub-query * produces an indicator variable, and the result is a relational expression * which outer joins that indicator to the original query. After performing * the outer join, the condition will be TRUE if the EXISTS condition holds, @@ -1322,23 +1538,34 @@ public class SqlToRelConverter { * * @param seek A query, for example 'select * from emp' or * 'values (1,2,3)' or '('Foo', 34)'. - * @param subqueryType Whether sub-query is IN, EXISTS or scalar + * @param subQueryType Whether sub-query is IN, EXISTS or scalar * @param logic Whether the answer needs to be in full 3-valued logic (TRUE, * FALSE, UNKNOWN) will be required, or whether we can accept an * approximation (say representing UNKNOWN as FALSE) - * @param needsOuterJoin Whether an outer join is needed + * @param notIn Whether the operation is NOT IN * @return join expression * @pre extraExpr == null || extraName != null */ - private Pair<RelNode, Boolean> convertExists(SqlNode seek, RelOptUtil.SubqueryType subqueryType, RelOptUtil.Logic logic, boolean needsOuterJoin, RelDataType targetDataType) { - final SqlValidatorScope seekScope = (seek instanceof SqlSelect) ? validator.getSelectScope((SqlSelect) seek) : null; + private RelOptUtil.Exists convertExists( + SqlNode seek, + RelOptUtil.SubQueryType subQueryType, + RelOptUtil.Logic logic, + boolean notIn, + RelDataType targetDataType) { + final SqlValidatorScope seekScope = + (seek instanceof SqlSelect) + ? validator.getSelectScope((SqlSelect) seek) + : null; final Blackboard seekBb = createBlackboard(seekScope, null, false); RelNode seekRel = convertQueryOrInList(seekBb, seek, targetDataType); - return RelOptUtil.createExistsPlan(seekRel, subqueryType, logic, needsOuterJoin); + return RelOptUtil.createExistsPlan(seekRel, subQueryType, logic, notIn); } - private RelNode convertQueryOrInList(Blackboard bb, SqlNode seek, RelDataType targetRowType) { + private RelNode convertQueryOrInList( + Blackboard bb, + SqlNode seek, + RelDataType targetRowType) { // NOTE: Once we start accepting single-row queries as row constructors, // there will be an ambiguity here for a case like X IN ((SELECT Y FROM // Z)). The SQL standard resolves the ambiguity by saying that a lone @@ -1346,25 +1573,40 @@ public class SqlToRelConverter { // expression. The semantic difference is that a table expression can // return multiple rows. if (seek instanceof SqlNodeList) { - return convertRowValues(bb, seek, ((SqlNodeList) seek).getList(), false, targetRowType); + return convertRowValues( + bb, + seek, + ((SqlNodeList) seek).getList(), + false, + targetRowType); } else { return convertQueryRecursive(seek, false, null).project(); } } - private RelNode convertRowValues(Blackboard bb, SqlNode rowList, Collection<SqlNode> rows, boolean allowLiteralsOnly, RelDataType targetRowType) { + private RelNode convertRowValues( + Blackboard bb, + SqlNode rowList, + Collection<SqlNode> rows, + boolean allowLiteralsOnly, + RelDataType targetRowType) { // NOTE jvs 30-Apr-2006: We combine all rows consisting entirely of // literals into a single LogicalValues; this gives the optimizer a smaller // input tree. For everything else (computed expressions, row - // subqueries), we union each row in as a projection on top of a + // sub-queries), we union each row in as a projection on top of a // LogicalOneRow. - final ImmutableList.Builder<ImmutableList<RexLiteral>> tupleList = ImmutableList.builder(); + final ImmutableList.Builder<ImmutableList<RexLiteral>> tupleList = + ImmutableList.builder(); final RelDataType rowType; if (targetRowType != null) { rowType = targetRowType; } else { - rowType = SqlTypeUtil.promoteToRowType(typeFactory, validator.getValidatedNodeType(rowList), null); + rowType = + SqlTypeUtil.promoteToRowType( + typeFactory, + validator.getValidatedNodeType(rowList), + null); } final List<RelNode> unionInputs = new ArrayList<>(); @@ -1374,11 +1616,16 @@ public class SqlToRelConverter { call = (SqlBasicCall) node; ImmutableList.Builder<RexLiteral> tuple = ImmutableList.builder(); for (Ord<SqlNode> operand : Ord.zip(call.operands)) { - RexLiteral rexLiteral = convertLiteralInValuesList(operand.e, bb, rowType, operand.i); + RexLiteral rexLiteral = + convertLiteralInValuesList( + operand.e, + bb, + rowType, + operand.i); if ((rexLiteral == null) && allowLiteralsOnly) { return null; } - if ((rexLiteral == null) || !shouldCreateValuesRel) { + if ((rexLiteral == null) || !config.isCreateValuesRel()) { // fallback to convertRowConstructor tuple = null; break; @@ -1390,8 +1637,13 @@ public class SqlToRelConverter { continue; } } else { - RexLiteral rexLiteral = convertLiteralInValuesList(node, bb, rowType, 0); - if ((rexLiteral != null) && shouldCreateValuesRel) { + RexLiteral rexLiteral = + convertLiteralInValuesList( + node, + bb, + rowType, + 0); + if ((rexLiteral != null) && config.isCreateValuesRel()) { tupleList.add(ImmutableList.of(rexLiteral)); continue; } else { @@ -1401,11 +1653,15 @@ public class SqlToRelConverter { } // convert "1" to "row(1)" - call = (SqlBasicCall) SqlStdOperatorTable.ROW.createCall(SqlParserPos.ZERO, node); + call = + (SqlBasicCall) SqlStdOperatorTable.ROW.createCall( + SqlParserPos.ZERO, + node); } unionInputs.add(convertRowConstructor(bb, call)); } - LogicalValues values = LogicalValues.create(cluster, rowType, tupleList.build()); + LogicalValues values = + LogicalValues.create(cluster, rowType, tupleList.build()); RelNode resultRel; if (unionInputs.isEmpty()) { resultRel = values; @@ -1419,7 +1675,11 @@ public class SqlToRelConverter { return resultRel; } - private RexLiteral convertLiteralInValuesList(SqlNode sqlNode, Blackboard bb, RelDataType rowType, int iField) { + private RexLiteral convertLiteralInValuesList( + SqlNode sqlNode, + Blackboard bb, + RelDataType rowType, + int iField) { if (!(sqlNode instanceof SqlLiteral)) { return null; } @@ -1432,7 +1692,10 @@ public class SqlToRelConverter { return null; } - RexNode literalExpr = exprConverter.convertLiteral(bb, (SqlLiteral) sqlNode); + RexNode literalExpr = + exprConverter.convertLiteral( + bb, + (SqlLiteral) sqlNode); if (!(literalExpr instanceof RexLiteral)) { assert literalExpr.isA(SqlKind.CAST); @@ -1449,14 +1712,24 @@ public class SqlToRelConverter { Comparable value = literal.getValue(); if (SqlTypeUtil.isExactNumeric(type) && SqlTypeUtil.hasScale(type)) { - BigDecimal roundedValue = NumberUtil.rescaleBigDecimal((BigDecimal) value, type.getScale()); - return rexBuilder.makeExactLiteral(roundedValue, type); + BigDecimal roundedValue = + NumberUtil.rescaleBigDecimal( + (BigDecimal) value, + type.getScale()); + return rexBuilder.makeExactLiteral( + roundedValue, + type); } - if ((value instanceof NlsString) && (type.getSqlTypeName() == SqlTypeName.CHAR)) { + if ((value instanceof NlsString) + && (type.getSqlTypeName() == SqlTypeName.CHAR)) { // pad fixed character type NlsString unpadded = (NlsString) value; - return rexBuilder.makeCharLiteral(new NlsString(Spaces.padRight(unpadded.getValue(), type.getPrecision()), unpadded.getCharsetName(), unpadded.getCollation())); + return rexBuilder.makeCharLiteral( + new NlsString( + Spaces.padRight(unpadded.getValue(), type.getPrecision()), + unpadded.getCharsetName(), + unpadded.getCollation())); } return literal; } @@ -1478,67 +1751,78 @@ public class SqlToRelConverter { * @param logic Whether the answer needs to be in full 3-valued logic (TRUE, * FALSE, UNKNOWN) will be required, or whether we can accept * an approximation (say representing UNKNOWN as FALSE) - * @param registerOnlyScalarSubqueries if set to true and the parse tree + * @param registerOnlyScalarSubQueries if set to true and the parse tree * corresponds to a variation of a select * node, only register it if it's a scalar - * subquery + * sub-query */ - private void findSubqueries(Blackboard bb, SqlNode node, RelOptUtil.Logic logic, boolean registerOnlyScalarSubqueries) { + private void findSubQueries( + Blackboard bb, + SqlNode node, + RelOptUtil.Logic logic, + boolean registerOnlyScalarSubQueries) { final SqlKind kind = node.getKind(); switch (kind) { - case EXISTS: - case SELECT: - case MULTISET_QUERY_CONSTRUCTOR: - case MULTISET_VALUE_CONSTRUCTOR: - case ARRAY_QUERY_CONSTRUCTOR: - case CURSOR: - case SCALAR_QUERY: - if (!registerOnlyScalarSubqueries || (kind == SqlKind.SCALAR_QUERY)) { - bb.registerSubquery(node, RelOptUtil.Logic.TRUE_FALSE); - } - return; - case IN: - if (((SqlCall) node).getOperator() == SqlStdOperatorTable.NOT_IN) { + case EXISTS: + case SELECT: + case MULTISET_QUERY_CONSTRUCTOR: + case MULTISET_VALUE_CONSTRUCTOR: + case ARRAY_QUERY_CONSTRUCTOR: + case CURSOR: + case SCALAR_QUERY: + if (!registerOnlyScalarSubQueries + || (kind == SqlKind.SCALAR_QUERY)) { + bb.registerSubQuery(node, RelOptUtil.Logic.TRUE_FALSE); + } + return; + case IN: + if (((SqlCall) node).getOperator() == SqlStdOperatorTable.NOT_IN) { + logic = logic.negate(); + } + break; + case NOT: logic = logic.negate(); - } - break; - case NOT: - logic = logic.negate(); - break; + break; } if (node instanceof SqlCall) { - if (kind == SqlKind.OR || kind == SqlKind.NOT) { - // It's always correct to outer join subquery with - // containing query; however, when predicates involve Or - // or NOT, outer join might be necessary. - bb.subqueryNeedsOuterJoin = true; - } for (SqlNode operand : ((SqlCall) node).getOperandList()) { if (operand != null) { // In the case of an IN expression, locate scalar - // subqueries so we can convert them to constants - findSubqueries(bb, operand, logic, kind == SqlKind.IN || registerOnlyScalarSubqueries); + // sub-queries so we can convert them to constants + findSubQueries( + bb, + operand, + logic, + kind == SqlKind.IN || registerOnlyScalarSubQueries); } } } else if (node instanceof SqlNodeList) { for (SqlNode child : (SqlNodeList) node) { - findSubqueries(bb, child, logic, kind == SqlKind.IN || registerOnlyScalarSubqueries); + findSubQueries( + bb, + child, + logic, + kind == SqlKind.IN || registerOnlyScalarSubQueries); } } - // Now that we've located any scalar subqueries inside the IN + // Now that we've located any scalar sub-queries inside the IN // expression, register the IN expression itself. We need to - // register the scalar subqueries first so they can be converted + // register the scalar sub-queries first so they can be converted // before the IN expression is converted. if (kind == SqlKind.IN) { - if (logic == RelOptUtil.Logic.TRUE_FALSE_UNKNOWN && !validator.getValidatedNodeType(node).isNullable()) { - logic = RelOptUtil.Logic.UNKNOWN_AS_FALSE; - } - // TODO: This conversion is only valid in the WHERE clause - if (logic == RelOptUtil.Logic.UNKNOWN_AS_FALSE && !bb.subqueryNeedsOuterJoin) { - logic = RelOptUtil.Logic.TRUE; + switch (logic) { + case TRUE_FALSE_UNKNOWN: + if (validator.getValidatedNodeType(node).isNullable()) { + break; + } else if (true) { + break; + } + // fall through + case UNKNOWN_AS_FALSE: + logic = RelOptUtil.Logic.TRUE; } - bb.registerSubquery(node, logic); + bb.registerSubQuery(node, logic); } } @@ -1548,9 +1832,11 @@ public class SqlToRelConverter { * @param node Expression to translate * @return Converted expression */ - public RexNode convertEx
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