_map_d_parser_8java_source.html

 /*

  * Copyright 2019 OmniSci, Inc.

  *

  * Licensed under the Apache License, Version 2.0 (the "License");

  * you may not use this file except in compliance with the License.

  * You may obtain a copy of the License at

  *

  *     http://www.apache.org/licenses/LICENSE-2.0

  *

  * Unless required by applicable law or agreed to in writing, software

  * distributed under the License is distributed on an "AS IS" BASIS,

  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  * See the License for the specific language governing permissions and

  * limitations under the License.

  */

 package com.mapd.calcite.parser;


 import static org.apache.calcite.sql.parser.SqlParserPos.ZERO;


 import com.google.common.collect.ImmutableList;

 import com.mapd.common.SockTransportProperties;

 import com.mapd.parser.extension.ddl.ExtendedSqlParser;

 import com.mapd.parser.extension.ddl.JsonSerializableDdl;

 import com.mapd.parser.hint.OmniSciHintStrategyTable;

 import com.mapd.parser.server.ExtensionFunction;


 import org.apache.calcite.avatica.util.Casing;

 import org.apache.calcite.config.CalciteConnectionConfig;

 import org.apache.calcite.config.CalciteConnectionConfigImpl;

 import org.apache.calcite.config.CalciteConnectionProperty;

 import org.apache.calcite.plan.Context;

 import org.apache.calcite.plan.RelOptLattice;

 import org.apache.calcite.plan.RelOptMaterialization;

 import org.apache.calcite.plan.RelOptTable;

 import org.apache.calcite.plan.RelOptUtil;

 import org.apache.calcite.prepare.MapDPlanner;

 import org.apache.calcite.prepare.SqlIdentifierCapturer;

 import org.apache.calcite.rel.RelNode;

 import org.apache.calcite.rel.RelRoot;

 import org.apache.calcite.rel.RelShuttleImpl;

 import org.apache.calcite.rel.core.Join;

 import org.apache.calcite.rel.core.RelFactories;

 import org.apache.calcite.rel.core.TableModify;

 import org.apache.calcite.rel.core.TableModify.Operation;

 import org.apache.calcite.rel.hint.HintStrategyTable;

 import org.apache.calcite.rel.logical.LogicalProject;

 import org.apache.calcite.rel.logical.LogicalTableModify;

 import org.apache.calcite.rel.metadata.DefaultRelMetadataProvider;

 import org.apache.calcite.rel.rules.FilterMergeRule;

 import org.apache.calcite.rel.rules.FilterProjectTransposeRule;

 import org.apache.calcite.rel.rules.JoinProjectTransposeRule;

 import org.apache.calcite.rel.rules.ProjectMergeRule;

 import org.apache.calcite.rel.type.RelDataType;

 import org.apache.calcite.rel.type.RelDataTypeFactory;

 import org.apache.calcite.rel.type.RelDataTypeField;

 import org.apache.calcite.rel.type.RelDataTypeSystem;

 import org.apache.calcite.rex.RexBuilder;

 import org.apache.calcite.rex.RexCall;

 import org.apache.calcite.rex.RexInputRef;

 import org.apache.calcite.rex.RexNode;

 import org.apache.calcite.rex.RexShuttle;

 import org.apache.calcite.runtime.CalciteException;

 import org.apache.calcite.schema.SchemaPlus;

 import org.apache.calcite.sql.JoinConditionType;

 import org.apache.calcite.sql.JoinType;

 import org.apache.calcite.sql.SqlBasicCall;

 import org.apache.calcite.sql.SqlBasicTypeNameSpec;

 import org.apache.calcite.sql.SqlCall;

 import org.apache.calcite.sql.SqlDataTypeSpec;

 import org.apache.calcite.sql.SqlDelete;

 import org.apache.calcite.sql.SqlDialect;

 import org.apache.calcite.sql.SqlFunctionCategory;

 import org.apache.calcite.sql.SqlIdentifier;

 import org.apache.calcite.sql.SqlJoin;

 import org.apache.calcite.sql.SqlKind;

 import org.apache.calcite.sql.SqlLiteral;

 import org.apache.calcite.sql.SqlNode;

 import org.apache.calcite.sql.SqlNodeList;

 import org.apache.calcite.sql.SqlNumericLiteral;

 import org.apache.calcite.sql.SqlOrderBy;

 import org.apache.calcite.sql.SqlSelect;

 import org.apache.calcite.sql.SqlUnresolvedFunction;

 import org.apache.calcite.sql.SqlUpdate;

 import org.apache.calcite.sql.SqlWith;

 import org.apache.calcite.sql.fun.SqlCase;

 import org.apache.calcite.sql.fun.SqlStdOperatorTable;

 import org.apache.calcite.sql.parser.SqlParseException;

 import org.apache.calcite.sql.parser.SqlParser;

 import org.apache.calcite.sql.parser.SqlParserPos;

 import org.apache.calcite.sql.type.SqlTypeName;

 import org.apache.calcite.sql.type.SqlTypeUtil;

 import org.apache.calcite.sql.util.SqlBasicVisitor;

 import org.apache.calcite.sql.util.SqlShuttle;

 import org.apache.calcite.sql.validate.SqlConformanceEnum;

 import org.apache.calcite.sql2rel.SqlToRelConverter;

 import org.apache.calcite.tools.FrameworkConfig;

 import org.apache.calcite.tools.Frameworks;

 import org.apache.calcite.tools.Planner;

 import org.apache.calcite.tools.Program;

 import org.apache.calcite.tools.Programs;

 import org.apache.calcite.tools.RelConversionException;

 import org.apache.calcite.tools.ValidationException;

 import org.apache.calcite.util.Pair;

 import org.apache.calcite.util.Util;

 import org.slf4j.Logger;

 import org.slf4j.LoggerFactory;


 import java.lang.reflect.Field;

 import java.util.ArrayList;

 import java.util.Arrays;

 import java.util.Collections;

 import java.util.EnumSet;

 import java.util.HashSet;

 import java.util.List;

 import java.util.Map;

 import java.util.Properties;

 import java.util.Set;

 import java.util.concurrent.ConcurrentHashMap;

 import java.util.function.BiPredicate;

 import java.util.function.Supplier;


 public final class MapDParser {

   public static final ThreadLocal<MapDParser> CURRENT_PARSER = new ThreadLocal<>();

   private static final EnumSet<SqlKind> SCALAR =

           EnumSet.of(SqlKind.SCALAR_QUERY, SqlKind.SELECT);

   private static final EnumSet<SqlKind> EXISTS = EnumSet.of(SqlKind.EXISTS);

   private static final EnumSet<SqlKind> DELETE = EnumSet.of(SqlKind.DELETE);

   private static final EnumSet<SqlKind> UPDATE = EnumSet.of(SqlKind.UPDATE);

   private static final EnumSet<SqlKind> IN = EnumSet.of(SqlKind.IN);

   private static final EnumSet<SqlKind> ARRAY_VALUE =

           EnumSet.of(SqlKind.ARRAY_VALUE_CONSTRUCTOR);


   final static Logger MAPDLOGGER = LoggerFactory.getLogger(MapDParser.class);


   // private SqlTypeFactoryImpl typeFactory;

   // private MapDCatalogReader catalogReader;

   // private SqlValidatorImpl validator;

   // private SqlToRelConverter converter;

   private final Supplier<MapDSqlOperatorTable> mapDSqlOperatorTable;

   private final String dataDir;


   private int callCount = 0;

   private final int mapdPort;

   private MapDUser mapdUser;

   SqlNode sqlNode_;

   private SockTransportProperties sock_transport_properties = null;


   private static Map<String, Boolean> SubqueryCorrMemo = new ConcurrentHashMap<>();


   public MapDParser(String dataDir,

           final Supplier<MapDSqlOperatorTable> mapDSqlOperatorTable,

           int mapdPort,

           SockTransportProperties skT) {

     this.dataDir = dataDir;

     this.mapDSqlOperatorTable = mapDSqlOperatorTable;

     this.mapdPort = mapdPort;

     this.sock_transport_properties = skT;

   }


   public void clearMemo() {

     SubqueryCorrMemo.clear();

   }


   private static final Context MAPD_CONNECTION_CONTEXT = new Context() {

     MapDTypeSystem myTypeSystem = new MapDTypeSystem();

     CalciteConnectionConfig config = new CalciteConnectionConfigImpl(new Properties()) {

       {

         properties.put(CalciteConnectionProperty.CASE_SENSITIVE.camelName(),

                 String.valueOf(false));

         properties.put(CalciteConnectionProperty.CONFORMANCE.camelName(),

                 String.valueOf(SqlConformanceEnum.LENIENT));

       }


       @SuppressWarnings("unchecked")

       public <T extends Object> T typeSystem(

               java.lang.Class<T> typeSystemClass, T defaultTypeSystem) {

         return (T) myTypeSystem;

       };


       public boolean caseSensitive() {

         return false;

       };


       public org.apache.calcite.sql.validate.SqlConformance conformance() {

         return SqlConformanceEnum.LENIENT;

       };

     };


     @Override

     public <C> C unwrap(Class<C> aClass) {

       if (aClass.isInstance(config)) {

         return aClass.cast(config);

       }

       return null;

     }

   };


   private MapDPlanner getPlanner() {

     return getPlanner(true, true);

   }


   private boolean isCorrelated(SqlNode expression) {

     String queryString = expression.toSqlString(SqlDialect.CALCITE).getSql();

     Boolean isCorrelatedSubquery = SubqueryCorrMemo.get(queryString);

     if (null != isCorrelatedSubquery) {

       return isCorrelatedSubquery;

     }


     try {

       MapDParser parser = new MapDParser(

               dataDir, mapDSqlOperatorTable, mapdPort, sock_transport_properties);

       MapDParserOptions options = new MapDParserOptions();

       parser.setUser(mapdUser);

       parser.processSql(expression, options);

     } catch (Exception e) {

       // if we are not able to parse, then assume correlated

       SubqueryCorrMemo.put(queryString, true);

       return true;

     }

     SubqueryCorrMemo.put(queryString, false);

     return false;

   }


   private MapDPlanner getPlanner(final boolean allowSubQueryExpansion,

           final boolean allowPushdownJoinCondition) {

     final MapDSchema mapd =

             new MapDSchema(dataDir, this, mapdPort, mapdUser, sock_transport_properties);

     final SchemaPlus rootSchema = Frameworks.createRootSchema(true);


     BiPredicate<SqlNode, SqlNode> expandPredicate = new BiPredicate<SqlNode, SqlNode>() {

       @Override

       public boolean test(SqlNode root, SqlNode expression) {

         if (!allowSubQueryExpansion) {

           return false;

         }


         // special handling of sub-queries

         if (expression.isA(SCALAR) || expression.isA(EXISTS) || expression.isA(IN)) {

           // only expand if it is correlated.


           if (expression.isA(EXISTS)) {

             // always expand subquery by EXISTS clause

             return true;

           }


           if (expression.isA(IN)) {

             // expand subquery by IN clause

             // but correlated subquery by NOT_IN clause is not available

             // currently due to a lack of supporting in Calcite

             boolean found_expression = false;

             if (expression instanceof SqlCall) {

               SqlCall call = (SqlCall) expression;

               if (call.getOperandList().size() == 2) {

                 // if IN clause is correlated, its second operand of corresponding

                 // expression is SELECT clause which indicates a correlated subquery.

                 // Here, an expression "f.val IN (SELECT ...)" has two operands.

                 // Since we have interest in its subquery, so try to check whether

                 // the second operand, i.e., call.getOperandList().get(1)

                 // is a type of SqlSelect and also is correlated.

                 // Note that the second operand of non-correlated IN clause

                 // does not have SqlSelect as its second operand

                 if (call.getOperandList().get(1) instanceof SqlSelect) {

                   expression = call.getOperandList().get(1);

                   SqlSelect select_call = (SqlSelect) expression;

                   if (select_call.hasWhere()) {

                     found_expression = true;

                   }

                 }

               }

             }

             if (!found_expression) {

               return false;

             }

           }


           if (isCorrelated(expression)) {

             SqlSelect select = null;

             if (expression instanceof SqlCall) {

               SqlCall call = (SqlCall) expression;

               if (call.getOperator().equals(SqlStdOperatorTable.SCALAR_QUERY)) {

                 expression = call.getOperandList().get(0);

               }

             }


             if (expression instanceof SqlSelect) {

               select = (SqlSelect) expression;

             }


             if (null != select) {

               if (null != select.getFetch() || null != select.getOffset()

                       || (null != select.getOrderList()

                               && select.getOrderList().size() != 0)) {

                 throw new CalciteException(

                         "Correlated sub-queries with ordering not supported.", null);

               }

             }

             return true;

           }

         }


         // per default we do not want to expand

         return false;

       }

     };


     BiPredicate<SqlNode, Join> pushdownJoinPredicate = new BiPredicate<SqlNode, Join>() {

       @Override

       public boolean test(SqlNode t, Join u) {

         if (!allowPushdownJoinCondition) {

           return false;

         }


         return !hasGeoColumns(u.getRowType());

       }


       private boolean hasGeoColumns(RelDataType type) {

         for (RelDataTypeField f : type.getFieldList()) {

           if ("any".equalsIgnoreCase(f.getType().getFamily().toString())) {

             // any indicates geo types at the moment

             return true;

           }

         }


         return false;

       }

     };


     final FrameworkConfig config =

             Frameworks.newConfigBuilder()

                     .defaultSchema(rootSchema.add(mapdUser.getDB(), mapd))

                     .operatorTable(mapDSqlOperatorTable.get())

                     .parserConfig(SqlParser.configBuilder()

                                           .setConformance(SqlConformanceEnum.LENIENT)

                                           .setUnquotedCasing(Casing.UNCHANGED)

                                           .setCaseSensitive(false)

                                           // allow identifiers of up to 512 chars

                                           .setIdentifierMaxLength(512)

                                           .setParserFactory(ExtendedSqlParser.FACTORY)

                                           .build())

                     .sqlToRelConverterConfig(

                             SqlToRelConverter

                                     .configBuilder()

                                     // enable sub-query expansion (de-correlation)

                                     .withExpandPredicate(expandPredicate)

                                     // allow as many as possible IN operator values

                                     .withInSubQueryThreshold(Integer.MAX_VALUE)

                                     .withPushdownJoinCondition(pushdownJoinPredicate)

                                     .withHintStrategyTable(

                                             OmniSciHintStrategyTable.HINT_STRATEGY_TABLE)

                                     .build())

                     .typeSystem(createTypeSystem())

                     .context(MAPD_CONNECTION_CONTEXT)

                     .build();

     return new MapDPlanner(config);

   }


   public void setUser(MapDUser mapdUser) {

     this.mapdUser = mapdUser;

   }


   public Pair<String, SqlIdentifierCapturer> process(

           String sql, final MapDParserOptions parserOptions)

           throws SqlParseException, ValidationException, RelConversionException {

     final MapDPlanner planner = getPlanner(true, true);

     final SqlNode sqlNode = parseSql(sql, parserOptions.isLegacySyntax(), planner);

     String res = processSql(sqlNode, parserOptions);

     SqlIdentifierCapturer capture = captureIdentifiers(sqlNode);


     return new Pair<String, SqlIdentifierCapturer>(res, capture);

   }


   public String processSql(String sql, final MapDParserOptions parserOptions)

           throws SqlParseException, ValidationException, RelConversionException {

     callCount++;


     final MapDPlanner planner = getPlanner(true, true);

     final SqlNode sqlNode = parseSql(sql, parserOptions.isLegacySyntax(), planner);


     return processSql(sqlNode, parserOptions);

   }


   public String processSql(final SqlNode sqlNode, final MapDParserOptions parserOptions)

           throws SqlParseException, ValidationException, RelConversionException {

     callCount++;


     if (sqlNode instanceof JsonSerializableDdl) {

       return ((JsonSerializableDdl) sqlNode).toJsonString();

     }


     final MapDPlanner planner = getPlanner(true, true);

     planner.advanceToValidate();


     final RelRoot sqlRel = convertSqlToRelNode(sqlNode, planner, parserOptions);

     RelNode project = sqlRel.project();


     if (parserOptions.isExplain()) {

       return RelOptUtil.toString(sqlRel.project());

     }


     String res = MapDSerializer.toString(project);


     return res;

   }


   public MapDPlanner.CompletionResult getCompletionHints(

           String sql, int cursor, List<String> visible_tables) {

     return getPlanner().getCompletionHints(sql, cursor, visible_tables);

   }


   public Set<String> resolveSelectIdentifiers(SqlIdentifierCapturer capturer) {

     MapDSchema schema =

             new MapDSchema(dataDir, this, mapdPort, mapdUser, sock_transport_properties);

     HashSet<String> resolved = new HashSet<>();


     for (String name : capturer.selects) {

       MapDTable table = (MapDTable) schema.getTable(name);

       if (null == table) {

         throw new RuntimeException("table/view not found: " + name);

       }


       if (table instanceof MapDView) {

         MapDView view = (MapDView) table;

         resolved.addAll(resolveSelectIdentifiers(view.getAccessedObjects()));

       } else {

         resolved.add(name);

       }

     }


     return resolved;

   }


   private String getTableName(SqlNode node) {

     if (node.isA(EnumSet.of(SqlKind.AS))) {

       node = ((SqlCall) node).getOperandList().get(1);

     }

     if (node instanceof SqlIdentifier) {

       SqlIdentifier id = (SqlIdentifier) node;

       return id.names.get(id.names.size() - 1);

     }

     return null;

   }


   private SqlSelect rewriteSimpleUpdateAsSelect(final SqlUpdate update) {

     SqlNode where = update.getCondition();


     if (update.getSourceExpressionList().size() != 1) {

       return null;

     }


     if (!(update.getSourceExpressionList().get(0) instanceof SqlSelect)) {

       return null;

     }


     final SqlSelect inner = (SqlSelect) update.getSourceExpressionList().get(0);


     if (null != inner.getGroup() || null != inner.getFetch() || null != inner.getOffset()

             || (null != inner.getOrderList() && inner.getOrderList().size() != 0)

             || (null != inner.getGroup() && inner.getGroup().size() != 0)

             || null == getTableName(inner.getFrom())) {

       return null;

     }


     if (!isCorrelated(inner)) {

       return null;

     }


     final String updateTableName = getTableName(update.getTargetTable());


     if (null != where) {

       where = where.accept(new SqlShuttle() {

         @Override

         public SqlNode visit(SqlIdentifier id) {

           if (id.isSimple()) {

             id = new SqlIdentifier(Arrays.asList(updateTableName, id.getSimple()),

                     id.getParserPosition());

           }


           return id;

         }

       });

     }


     SqlJoin join = new SqlJoin(ZERO,

             update.getTargetTable(),

             SqlLiteral.createBoolean(false, ZERO),

             SqlLiteral.createSymbol(JoinType.LEFT, ZERO),

             inner.getFrom(),

             SqlLiteral.createSymbol(JoinConditionType.ON, ZERO),

             inner.getWhere());


     SqlNode select0 = inner.getSelectList().get(0);


     boolean wrapInSingleValue = true;

     if (select0 instanceof SqlCall) {

       SqlCall selectExprCall = (SqlCall) select0;

       if (Util.isSingleValue(selectExprCall)) {

         wrapInSingleValue = false;

       }

     }


     if (wrapInSingleValue) {

       select0 = new SqlBasicCall(

               SqlStdOperatorTable.SINGLE_VALUE, new SqlNode[] {select0}, ZERO);

     }


     SqlNodeList selectList = new SqlNodeList(ZERO);

     selectList.add(select0);

     selectList.add(new SqlBasicCall(SqlStdOperatorTable.AS,

             new SqlNode[] {new SqlBasicCall(

                                    new SqlUnresolvedFunction(

                                            new SqlIdentifier("OFFSET_IN_FRAGMENT", ZERO),

                                            null,

                                            null,

                                            null,

                                            null,

                                            SqlFunctionCategory.USER_DEFINED_FUNCTION),

                                    new SqlNode[0],

                                    SqlParserPos.ZERO),

                     new SqlIdentifier("EXPR$DELETE_OFFSET_IN_FRAGMENT", ZERO)},

             ZERO));


     SqlNodeList groupBy = new SqlNodeList(ZERO);

     groupBy.add(new SqlIdentifier("EXPR$DELETE_OFFSET_IN_FRAGMENT", ZERO));


     SqlSelect select = new SqlSelect(ZERO,

             null,

             selectList,

             join,

             where,

             groupBy,

             null,

             null,

             null,

             null,

             null,

             null);

     return select;

   }


   private LogicalTableModify getDummyUpdate(SqlUpdate update)

           throws SqlParseException, ValidationException, RelConversionException {

     SqlIdentifier targetTable = (SqlIdentifier) update.getTargetTable();

     String targetTableName = targetTable.names.get(targetTable.names.size() - 1);

     MapDPlanner planner = getPlanner();

     String dummySql = "DELETE FROM " + targetTableName;

     SqlNode dummyNode = planner.parse(dummySql);

     dummyNode = planner.validate(dummyNode);

     RelRoot dummyRoot = planner.rel(dummyNode);

     LogicalTableModify dummyModify = (LogicalTableModify) dummyRoot.rel;

     return dummyModify;

   }


   private RelRoot rewriteUpdateAsSelect(SqlUpdate update, MapDParserOptions parserOptions)

           throws SqlParseException, ValidationException, RelConversionException {

     int correlatedQueriesCount[] = new int[1];

     SqlBasicVisitor<Void> correlatedQueriesCounter = new SqlBasicVisitor<Void>() {

       @Override

       public Void visit(SqlCall call) {

         if (call.isA(SCALAR)

                 && ((call instanceof SqlBasicCall && call.operandCount() == 1

                             && !call.operand(0).isA(SCALAR))

                         || !(call instanceof SqlBasicCall))) {

           if (isCorrelated(call)) {

             correlatedQueriesCount[0]++;

           }

         }

         return super.visit(call);

       }

     };


     update.accept(correlatedQueriesCounter);

     if (correlatedQueriesCount[0] > 1) {

       throw new CalciteException(

               "table modifications with multiple correlated sub-queries not supported.",

               null);

     }


     boolean allowPushdownJoinCondition = false;

     SqlNodeList sourceExpression = new SqlNodeList(SqlParserPos.ZERO);

     LogicalTableModify dummyModify = getDummyUpdate(update);

     RelOptTable targetTable = dummyModify.getTable();

     RelDataType targetTableType = targetTable.getRowType();


     SqlSelect select = rewriteSimpleUpdateAsSelect(update);

     boolean applyRexCast = null == select;


     if (null == select) {

       for (int i = 0; i < update.getSourceExpressionList().size(); i++) {

         SqlNode targetColumn = update.getTargetColumnList().get(i);

         SqlNode expression = update.getSourceExpressionList().get(i);


         if (!(targetColumn instanceof SqlIdentifier)) {

           throw new RuntimeException("Unknown identifier type!");

         }

         SqlIdentifier id = (SqlIdentifier) targetColumn;

         RelDataType fieldType =

                 targetTableType.getField(id.names.get(id.names.size() - 1), false, false)

                         .getType();


         if (expression.isA(ARRAY_VALUE) && null != fieldType.getComponentType()) {

           // apply a cast to all array value elements


           SqlDataTypeSpec elementType = new SqlDataTypeSpec(

                   new SqlBasicTypeNameSpec(fieldType.getComponentType().getSqlTypeName(),

                           fieldType.getPrecision(),

                           fieldType.getScale(),

                           null == fieldType.getCharset() ? null

                                                          : fieldType.getCharset().name(),

                           SqlParserPos.ZERO),

                   SqlParserPos.ZERO);

           SqlCall array_expression = (SqlCall) expression;

           ArrayList<SqlNode> values = new ArrayList<>();


           for (SqlNode value : array_expression.getOperandList()) {

             if (value.isA(EnumSet.of(SqlKind.LITERAL))) {

               SqlNode casted_value = new SqlBasicCall(SqlStdOperatorTable.CAST,

                       new SqlNode[] {value, elementType},

                       value.getParserPosition());

               values.add(casted_value);

             } else {

               values.add(value);

             }

           }


           expression = new SqlBasicCall(MapDSqlOperatorTable.ARRAY_VALUE_CONSTRUCTOR,

                   values.toArray(new SqlNode[0]),

                   expression.getParserPosition());

         }

         sourceExpression.add(expression);

       }


       sourceExpression.add(new SqlBasicCall(SqlStdOperatorTable.AS,

               new SqlNode[] {

                       new SqlBasicCall(new SqlUnresolvedFunction(

                                                new SqlIdentifier("OFFSET_IN_FRAGMENT",

                                                        SqlParserPos.ZERO),

                                                null,

                                                null,

                                                null,

                                                null,

                                                SqlFunctionCategory.USER_DEFINED_FUNCTION),

                               new SqlNode[0],

                               SqlParserPos.ZERO),

                       new SqlIdentifier("EXPR$DELETE_OFFSET_IN_FRAGMENT", ZERO)},

               ZERO));


       select = new SqlSelect(SqlParserPos.ZERO,

               null,

               sourceExpression,

               update.getTargetTable(),

               update.getCondition(),

               null,

               null,

               null,

               null,

               null,

               null,

               null);

     }


     MapDPlanner planner = getPlanner(true, allowPushdownJoinCondition);

     SqlNode node = planner.parse(select.toSqlString(SqlDialect.CALCITE).getSql());

     node = planner.validate(node);

     RelRoot root = planner.rel(node);

     LogicalProject project = (LogicalProject) root.project();


     ArrayList<String> fields = new ArrayList<String>();

     ArrayList<RexNode> nodes = new ArrayList<RexNode>();

     final RexBuilder builder = new RexBuilder(planner.getTypeFactory());


     for (SqlNode n : update.getTargetColumnList()) {

       if (n instanceof SqlIdentifier) {

         SqlIdentifier id = (SqlIdentifier) n;

         fields.add(id.names.get(id.names.size() - 1));

       } else {

         throw new RuntimeException("Unknown identifier type!");

       }

     }


     int idx = 0;

     for (RexNode exp : project.getChildExps()) {

       if (applyRexCast && idx + 1 < project.getChildExps().size()) {

         RelDataType expectedFieldType =

                 targetTableType.getField(fields.get(idx), false, false).getType();

         if (!exp.getType().equals(expectedFieldType) && !exp.isA(ARRAY_VALUE)) {

           exp = builder.makeCast(expectedFieldType, exp);

         }

       }


       nodes.add(exp);

       idx++;

     }


     ArrayList<RexNode> inputs = new ArrayList<RexNode>();

     int n = 0;

     for (int i = 0; i < fields.size(); i++) {

       inputs.add(

               new RexInputRef(n, project.getRowType().getFieldList().get(n).getType()));

       n++;

     }


     fields.add("EXPR$DELETE_OFFSET_IN_FRAGMENT");

     inputs.add(new RexInputRef(n, project.getRowType().getFieldList().get(n).getType()));


     project = project.copy(

             project.getTraitSet(), project.getInput(), nodes, project.getRowType());


     LogicalTableModify modify = LogicalTableModify.create(targetTable,

             dummyModify.getCatalogReader(),

             project,

             Operation.UPDATE,

             fields,

             inputs,

             true);

     return RelRoot.of(modify, SqlKind.UPDATE);

   }


   RelRoot queryToRelNode(final String sql, final MapDParserOptions parserOptions)

           throws SqlParseException, ValidationException, RelConversionException {

     final MapDPlanner planner = getPlanner(true, true);

     final SqlNode sqlNode = parseSql(sql, parserOptions.isLegacySyntax(), planner);

     return convertSqlToRelNode(sqlNode, planner, parserOptions);

   }


   RelRoot convertSqlToRelNode(final SqlNode sqlNode,

           final MapDPlanner mapDPlanner,

           final MapDParserOptions parserOptions)

           throws SqlParseException, ValidationException, RelConversionException {

     SqlNode node = sqlNode;

     MapDPlanner planner = mapDPlanner;

     boolean allowCorrelatedSubQueryExpansion = true;

     boolean allowPushdownJoinCondition = true;

     boolean patchUpdateToDelete = false;


     if (node.isA(DELETE)) {

       SqlDelete sqlDelete = (SqlDelete) node;

       node = new SqlUpdate(node.getParserPosition(),

               sqlDelete.getTargetTable(),

               SqlNodeList.EMPTY,

               SqlNodeList.EMPTY,

               sqlDelete.getCondition(),

               sqlDelete.getSourceSelect(),

               sqlDelete.getAlias());


       patchUpdateToDelete = true;

     }


     if (node.isA(UPDATE)) {

       SqlUpdate update = (SqlUpdate) node;

       update = (SqlUpdate) planner.validate(update);

       RelRoot root = rewriteUpdateAsSelect(update, parserOptions);


       if (patchUpdateToDelete) {

         LogicalTableModify modify = (LogicalTableModify) root.rel;


         try {

           Field f = TableModify.class.getDeclaredField("operation");

           f.setAccessible(true);

           f.set(modify, Operation.DELETE);

         } catch (Throwable e) {

           throw new RuntimeException(e);

         }


         root = RelRoot.of(modify, SqlKind.DELETE);

       }


       return root;

     }


     if (parserOptions.isLegacySyntax()) {

       // close original planner

       planner.close();

       // create a new one

       planner = getPlanner(allowCorrelatedSubQueryExpansion, allowPushdownJoinCondition);

       node = parseSql(node.toSqlString(SqlDialect.CALCITE).toString(), false, planner);

     }


     SqlNode validateR = planner.validate(node);

     planner.setFilterPushDownInfo(parserOptions.getFilterPushDownInfo());

     RelRoot relR = planner.rel(validateR);

     relR = replaceIsTrue(planner.getTypeFactory(), relR);

     planner.close();


     if (!parserOptions.isViewOptimizeEnabled()) {

       return relR;

     } else {

       // check to see if a view is involved in the query

       boolean foundView = false;

       MapDSchema schema = new MapDSchema(

               dataDir, this, mapdPort, mapdUser, sock_transport_properties);

       SqlIdentifierCapturer capturer = captureIdentifiers(sqlNode);

       for (String name : capturer.selects) {

         MapDTable table = (MapDTable) schema.getTable(name);

         if (null == table) {

           throw new RuntimeException("table/view not found: " + name);

         }

         if (table instanceof MapDView) {

           foundView = true;

         }

       }


       if (!foundView) {

         return relR;

       }


       // do some calcite based optimization

       // will allow duplicate projects to merge

       ProjectMergeRule projectMergeRule =

               new ProjectMergeRule(true, RelFactories.LOGICAL_BUILDER);

       final Program program =

               Programs.hep(ImmutableList.of(FilterProjectTransposeRule.INSTANCE,

                                    projectMergeRule,

                                    ProjectProjectRemoveRule.INSTANCE,

                                    FilterMergeRule.INSTANCE,

                                    JoinProjectTransposeRule.LEFT_PROJECT_INCLUDE_OUTER,

                                    JoinProjectTransposeRule.RIGHT_PROJECT_INCLUDE_OUTER,

                                    JoinProjectTransposeRule.BOTH_PROJECT_INCLUDE_OUTER),

                       true,

                       DefaultRelMetadataProvider.INSTANCE);


       RelNode oldRel;

       RelNode newRel = relR.project();


       do {

         oldRel = newRel;

         newRel = program.run(null,

                 oldRel,

                 null,

                 ImmutableList.<RelOptMaterialization>of(),

                 ImmutableList.<RelOptLattice>of());

         // there must be a better way to compare these

       } while (!RelOptUtil.toString(oldRel).equals(RelOptUtil.toString(newRel)));

       RelRoot optRel = RelRoot.of(newRel, relR.kind);

       return optRel;

     }

   }


   private RelRoot replaceIsTrue(final RelDataTypeFactory typeFactory, RelRoot root) {

     final RexShuttle callShuttle = new RexShuttle() {

       RexBuilder builder = new RexBuilder(typeFactory);


       public RexNode visitCall(RexCall call) {

         call = (RexCall) super.visitCall(call);

         if (call.getKind() == SqlKind.IS_TRUE) {

           return builder.makeCall(SqlStdOperatorTable.AND,

                   builder.makeCall(

                           SqlStdOperatorTable.IS_NOT_NULL, call.getOperands().get(0)),

                   call.getOperands().get(0));

         } else if (call.getKind() == SqlKind.IS_NOT_TRUE) {

           return builder.makeCall(SqlStdOperatorTable.OR,

                   builder.makeCall(

                           SqlStdOperatorTable.IS_NULL, call.getOperands().get(0)),

                   builder.makeCall(SqlStdOperatorTable.NOT, call.getOperands().get(0)));

         } else if (call.getKind() == SqlKind.IS_FALSE) {

           return builder.makeCall(SqlStdOperatorTable.AND,

                   builder.makeCall(

                           SqlStdOperatorTable.IS_NOT_NULL, call.getOperands().get(0)),

                   builder.makeCall(SqlStdOperatorTable.NOT, call.getOperands().get(0)));

         } else if (call.getKind() == SqlKind.IS_NOT_FALSE) {

           return builder.makeCall(SqlStdOperatorTable.OR,

                   builder.makeCall(

                           SqlStdOperatorTable.IS_NULL, call.getOperands().get(0)),

                   call.getOperands().get(0));

         }


         return call;

       }

     };


     RelNode node = root.rel.accept(new RelShuttleImpl() {

       @Override

       protected RelNode visitChild(RelNode parent, int i, RelNode child) {

         RelNode node = super.visitChild(parent, i, child);

         return node.accept(callShuttle);

       }

     });


     return new RelRoot(node,

             root.validatedRowType,

             root.kind,

             root.fields,

             root.collation,

             Collections.emptyList());

   }


   private SqlNode parseSql(String sql, final boolean legacy_syntax, Planner planner)

           throws SqlParseException {

     SqlNode parseR = null;

     try {

       parseR = planner.parse(sql);

       MAPDLOGGER.debug(" node is \n" + parseR.toString());

     } catch (SqlParseException ex) {

       MAPDLOGGER.error("failed to parse SQL '" + sql + "' \n" + ex.toString());

       throw ex;

     }


     if (!legacy_syntax) {

       return parseR;

     }


     RelDataTypeFactory typeFactory = planner.getTypeFactory();

     SqlSelect select_node = null;

     if (parseR instanceof SqlSelect) {

       select_node = (SqlSelect) parseR;

       desugar(select_node, typeFactory);

     } else if (parseR instanceof SqlOrderBy) {

       SqlOrderBy order_by_node = (SqlOrderBy) parseR;

       if (order_by_node.query instanceof SqlSelect) {

         select_node = (SqlSelect) order_by_node.query;

         SqlOrderBy new_order_by_node = desugar(select_node, order_by_node, typeFactory);

         if (new_order_by_node != null) {

           return new_order_by_node;

         }

       } else if (order_by_node.query instanceof SqlWith) {

         SqlWith old_with_node = (SqlWith) order_by_node.query;

         if (old_with_node.body instanceof SqlSelect) {

           select_node = (SqlSelect) old_with_node.body;

           desugar(select_node, typeFactory);

         }

       }

     } else if (parseR instanceof SqlWith) {

       SqlWith old_with_node = (SqlWith) parseR;

       if (old_with_node.body instanceof SqlSelect) {

         select_node = (SqlSelect) old_with_node.body;

         desugar(select_node, typeFactory);

       }

     }

     return parseR;

   }


   private void desugar(SqlSelect select_node, RelDataTypeFactory typeFactory) {

     desugar(select_node, null, typeFactory);

   }


   private SqlNode expandCase(SqlCase old_case_node, RelDataTypeFactory typeFactory) {

     SqlNodeList newWhenList =

             new SqlNodeList(old_case_node.getWhenOperands().getParserPosition());

     SqlNodeList newThenList =

             new SqlNodeList(old_case_node.getThenOperands().getParserPosition());

     java.util.Map<String, SqlNode> id_to_expr = new java.util.HashMap<String, SqlNode>();

     for (SqlNode node : old_case_node.getWhenOperands()) {

       SqlNode newCall = expand(node, id_to_expr, typeFactory);

       if (null != newCall) {

         newWhenList.add(newCall);

       } else {

         newWhenList.add(node);

       }

     }

     for (SqlNode node : old_case_node.getThenOperands()) {

       SqlNode newCall = expand(node, id_to_expr, typeFactory);

       if (null != newCall) {

         newThenList.add(newCall);

       } else {

         newThenList.add(node);

       }

     }

     SqlNode new_else_operand = old_case_node.getElseOperand();

     if (null != new_else_operand) {

       SqlNode candidate_else_operand =

               expand(old_case_node.getElseOperand(), id_to_expr, typeFactory);

       if (null != candidate_else_operand) {

         new_else_operand = candidate_else_operand;

       }

     }

     SqlNode new_value_operand = old_case_node.getValueOperand();

     if (null != new_value_operand) {

       SqlNode candidate_value_operand =

               expand(old_case_node.getValueOperand(), id_to_expr, typeFactory);

       if (null != candidate_value_operand) {

         new_value_operand = candidate_value_operand;

       }

     }

     SqlNode newCaseNode = SqlCase.createSwitched(old_case_node.getParserPosition(),

             new_value_operand,

             newWhenList,

             newThenList,

             new_else_operand);

     return newCaseNode;

   }


   private SqlOrderBy desugar(SqlSelect select_node,

           SqlOrderBy order_by_node,

           RelDataTypeFactory typeFactory) {

     MAPDLOGGER.debug("desugar: before: " + select_node.toString());

     desugarExpression(select_node.getFrom(), typeFactory);

     desugarExpression(select_node.getWhere(), typeFactory);

     SqlNodeList select_list = select_node.getSelectList();

     SqlNodeList new_select_list = new SqlNodeList(select_list.getParserPosition());

     java.util.Map<String, SqlNode> id_to_expr = new java.util.HashMap<String, SqlNode>();

     for (SqlNode proj : select_list) {

       if (!(proj instanceof SqlBasicCall)) {

         if (proj instanceof SqlCase) {

           new_select_list.add(expandCase((SqlCase) proj, typeFactory));

         } else {

           new_select_list.add(proj);

         }

       } else {

         assert proj instanceof SqlBasicCall;

         SqlBasicCall proj_call = (SqlBasicCall) proj;

         if (proj_call.operands.length > 0) {

           for (int i = 0; i < proj_call.operands.length; i++) {

             if (proj_call.operand(i) instanceof SqlCase) {

               SqlNode new_op = expandCase(proj_call.operand(i), typeFactory);

               proj_call.setOperand(i, new_op);

             }

           }

         }

         new_select_list.add(expand(proj_call, id_to_expr, typeFactory));

       }

     }

     select_node.setSelectList(new_select_list);

     SqlNodeList group_by_list = select_node.getGroup();

     if (group_by_list != null) {

       select_node.setGroupBy(expand(group_by_list, id_to_expr, typeFactory));

     }

     SqlNode having = select_node.getHaving();

     if (having != null) {

       expand(having, id_to_expr, typeFactory);

     }

     SqlOrderBy new_order_by_node = null;

     if (order_by_node != null && order_by_node.orderList != null

             && order_by_node.orderList.size() > 0) {

       SqlNodeList new_order_by_list =

               expand(order_by_node.orderList, id_to_expr, typeFactory);

       new_order_by_node = new SqlOrderBy(order_by_node.getParserPosition(),

               select_node,

               new_order_by_list,

               order_by_node.offset,

               order_by_node.fetch);

     }


     MAPDLOGGER.debug("desugar:  after: " + select_node.toString());

     return new_order_by_node;

   }


   private void desugarExpression(SqlNode node, RelDataTypeFactory typeFactory) {

     if (node instanceof SqlSelect) {

       desugar((SqlSelect) node, typeFactory);

       return;

     }

     if (!(node instanceof SqlBasicCall)) {

       return;

     }

     SqlBasicCall basic_call = (SqlBasicCall) node;

     for (SqlNode operator : basic_call.getOperands()) {

       if (operator instanceof SqlOrderBy) {

         desugarExpression(((SqlOrderBy) operator).query, typeFactory);

       } else {

         desugarExpression(operator, typeFactory);

       }

     }

   }


   private SqlNode expand(final SqlNode node,

           final java.util.Map<String, SqlNode> id_to_expr,

           RelDataTypeFactory typeFactory) {

     MAPDLOGGER.debug("expand: " + node.toString());

     if (node instanceof SqlBasicCall) {

       SqlBasicCall node_call = (SqlBasicCall) node;

       SqlNode[] operands = node_call.getOperands();

       for (int i = 0; i < operands.length; ++i) {

         node_call.setOperand(i, expand(operands[i], id_to_expr, typeFactory));

       }

       SqlNode expanded_variance = expandVariance(node_call, typeFactory);

       if (expanded_variance != null) {

         return expanded_variance;

       }

       SqlNode expanded_covariance = expandCovariance(node_call, typeFactory);

       if (expanded_covariance != null) {

         return expanded_covariance;

       }

       SqlNode expanded_correlation = expandCorrelation(node_call, typeFactory);

       if (expanded_correlation != null) {

         return expanded_correlation;

       }

     }

     if (node instanceof SqlSelect) {

       SqlSelect select_node = (SqlSelect) node;

       desugar(select_node, typeFactory);

     }

     return node;

   }


   private SqlNodeList expand(final SqlNodeList group_by_list,

           final java.util.Map<String, SqlNode> id_to_expr,

           RelDataTypeFactory typeFactory) {

     SqlNodeList new_group_by_list = new SqlNodeList(new SqlParserPos(-1, -1));

     for (SqlNode group_by : group_by_list) {

       if (!(group_by instanceof SqlIdentifier)) {

         new_group_by_list.add(expand(group_by, id_to_expr, typeFactory));

         continue;

       }

       SqlIdentifier group_by_id = ((SqlIdentifier) group_by);

       if (id_to_expr.containsKey(group_by_id.toString())) {

         new_group_by_list.add(id_to_expr.get(group_by_id.toString()));

       } else {

         new_group_by_list.add(group_by);

       }

     }

     return new_group_by_list;

   }


   private SqlNode expandVariance(

           final SqlBasicCall proj_call, RelDataTypeFactory typeFactory) {

     // Expand variance aggregates that are not supported natively

     if (proj_call.operandCount() != 1) {

       return null;

     }

     boolean biased;

     boolean sqrt;

     boolean flt;

     if (proj_call.getOperator().isName("STDDEV_POP", false)) {

       biased = true;

       sqrt = true;

       flt = false;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("STDDEV_POP_FLOAT")) {

       biased = true;

       sqrt = true;

       flt = true;

     } else if (proj_call.getOperator().isName("STDDEV_SAMP", false)

             || proj_call.getOperator().getName().equalsIgnoreCase("STDDEV")) {

       biased = false;

       sqrt = true;

       flt = false;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("STDDEV_SAMP_FLOAT")

             || proj_call.getOperator().getName().equalsIgnoreCase("STDDEV_FLOAT")) {

       biased = false;

       sqrt = true;

       flt = true;

     } else if (proj_call.getOperator().isName("VAR_POP", false)) {

       biased = true;

       sqrt = false;

       flt = false;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("VAR_POP_FLOAT")) {

       biased = true;

       sqrt = false;

       flt = true;

     } else if (proj_call.getOperator().isName("VAR_SAMP", false)

             || proj_call.getOperator().getName().equalsIgnoreCase("VARIANCE")) {

       biased = false;

       sqrt = false;

       flt = false;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("VAR_SAMP_FLOAT")

             || proj_call.getOperator().getName().equalsIgnoreCase("VARIANCE_FLOAT")) {

       biased = false;

       sqrt = false;

       flt = true;

     } else {

       return null;

     }

     final SqlNode operand = proj_call.operand(0);

     final SqlParserPos pos = proj_call.getParserPosition();

     SqlNode expanded_proj_call =

             expandVariance(pos, operand, biased, sqrt, flt, typeFactory);

     MAPDLOGGER.debug("Expanded select_list SqlCall: " + proj_call.toString());

     MAPDLOGGER.debug("to : " + expanded_proj_call.toString());

     return expanded_proj_call;

   }


   private SqlNode expandVariance(final SqlParserPos pos,

           final SqlNode operand,

           boolean biased,

           boolean sqrt,

           boolean flt,

           RelDataTypeFactory typeFactory) {

     // stddev_pop(x) ==>

     // power(

     // (sum(x * x) - sum(x) * sum(x) / (case count(x) when 0 then NULL else count(x)

     // end)) / (case count(x) when 0 then NULL else count(x) end), .5)

     //

     // stddev_samp(x) ==>

     // power(

     // (sum(x * x) - sum(x) * sum(x) / (case count(x) when 0 then NULL else count(x)

     // )) / ((case count(x) when 1 then NULL else count(x) - 1 end)), .5)

     //

     // var_pop(x) ==>

     // (sum(x * x) - sum(x) * sum(x) / ((case count(x) when 0 then NULL else

     // count(x)

     // end))) / ((case count(x) when 0 then NULL else count(x) end))

     //

     // var_samp(x) ==>

     // (sum(x * x) - sum(x) * sum(x) / ((case count(x) when 0 then NULL else

     // count(x)

     // end))) / ((case count(x) when 1 then NULL else count(x) - 1 end))

     //

     final SqlNode arg = SqlStdOperatorTable.CAST.createCall(pos,

             operand,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     final SqlNode argSquared = SqlStdOperatorTable.MULTIPLY.createCall(pos, arg, arg);

     final SqlNode sumArgSquared = SqlStdOperatorTable.SUM.createCall(pos, argSquared);

     final SqlNode sum = SqlStdOperatorTable.SUM.createCall(pos, arg);

     final SqlNode sumSquared = SqlStdOperatorTable.MULTIPLY.createCall(pos, sum, sum);

     final SqlNode count = SqlStdOperatorTable.COUNT.createCall(pos, arg);

     final SqlLiteral nul = SqlLiteral.createNull(pos);

     final SqlNumericLiteral zero = SqlLiteral.createExactNumeric("0", pos);

     final SqlNode countEqZero = SqlStdOperatorTable.EQUALS.createCall(pos, count, zero);

     SqlNodeList whenList = new SqlNodeList(pos);

     SqlNodeList thenList = new SqlNodeList(pos);

     whenList.add(countEqZero);

     thenList.add(nul);

     final SqlNode int_denominator = SqlStdOperatorTable.CASE.createCall(

             null, pos, null, whenList, thenList, count);

     final SqlNode denominator = SqlStdOperatorTable.CAST.createCall(pos,

             int_denominator,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     final SqlNode avgSumSquared =

             SqlStdOperatorTable.DIVIDE.createCall(pos, sumSquared, denominator);

     final SqlNode diff =

             SqlStdOperatorTable.MINUS.createCall(pos, sumArgSquared, avgSumSquared);

     final SqlNode denominator1;

     if (biased) {

       denominator1 = denominator;

     } else {

       final SqlNumericLiteral one = SqlLiteral.createExactNumeric("1", pos);

       final SqlNode countEqOne = SqlStdOperatorTable.EQUALS.createCall(pos, count, one);

       final SqlNode countMinusOne = SqlStdOperatorTable.MINUS.createCall(pos, count, one);

       SqlNodeList whenList1 = new SqlNodeList(pos);

       SqlNodeList thenList1 = new SqlNodeList(pos);

       whenList1.add(countEqOne);

       thenList1.add(nul);

       final SqlNode int_denominator1 = SqlStdOperatorTable.CASE.createCall(

               null, pos, null, whenList1, thenList1, countMinusOne);

       denominator1 = SqlStdOperatorTable.CAST.createCall(pos,

               int_denominator1,

               SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                       flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     }

     final SqlNode div = SqlStdOperatorTable.DIVIDE.createCall(pos, diff, denominator1);

     SqlNode result = div;

     if (sqrt) {

       final SqlNumericLiteral half = SqlLiteral.createExactNumeric("0.5", pos);

       result = SqlStdOperatorTable.POWER.createCall(pos, div, half);

     }

     return SqlStdOperatorTable.CAST.createCall(pos,

             result,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

   }


   private SqlNode expandCovariance(

           final SqlBasicCall proj_call, RelDataTypeFactory typeFactory) {

     // Expand covariance aggregates

     if (proj_call.operandCount() != 2) {

       return null;

     }

     boolean pop;

     boolean flt;

     if (proj_call.getOperator().isName("COVAR_POP", false)) {

       pop = true;

       flt = false;

     } else if (proj_call.getOperator().isName("COVAR_SAMP", false)) {

       pop = false;

       flt = false;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("COVAR_POP_FLOAT")) {

       pop = true;

       flt = true;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("COVAR_SAMP_FLOAT")) {

       pop = false;

       flt = true;

     } else {

       return null;

     }

     final SqlNode operand0 = proj_call.operand(0);

     final SqlNode operand1 = proj_call.operand(1);

     final SqlParserPos pos = proj_call.getParserPosition();

     SqlNode expanded_proj_call =

             expandCovariance(pos, operand0, operand1, pop, flt, typeFactory);

     MAPDLOGGER.debug("Expanded select_list SqlCall: " + proj_call.toString());

     MAPDLOGGER.debug("to : " + expanded_proj_call.toString());

     return expanded_proj_call;

   }


   private SqlNode expandCovariance(SqlParserPos pos,

           final SqlNode operand0,

           final SqlNode operand1,

           boolean pop,

           boolean flt,

           RelDataTypeFactory typeFactory) {

     // covar_pop(x, y) ==> avg(x * y) - avg(x) * avg(y)

     // covar_samp(x, y) ==> (sum(x * y) - sum(x) * avg(y))

     // ((case count(x) when 1 then NULL else count(x) - 1 end))

     final SqlNode arg0 = SqlStdOperatorTable.CAST.createCall(operand0.getParserPosition(),

             operand0,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     final SqlNode arg1 = SqlStdOperatorTable.CAST.createCall(operand1.getParserPosition(),

             operand1,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     final SqlNode mulArg = SqlStdOperatorTable.MULTIPLY.createCall(pos, arg0, arg1);

     final SqlNode avgArg1 = SqlStdOperatorTable.AVG.createCall(pos, arg1);

     if (pop) {

       final SqlNode avgMulArg = SqlStdOperatorTable.AVG.createCall(pos, mulArg);

       final SqlNode avgArg0 = SqlStdOperatorTable.AVG.createCall(pos, arg0);

       final SqlNode mulAvgAvg =

               SqlStdOperatorTable.MULTIPLY.createCall(pos, avgArg0, avgArg1);

       final SqlNode covarPop =

               SqlStdOperatorTable.MINUS.createCall(pos, avgMulArg, mulAvgAvg);

       return SqlStdOperatorTable.CAST.createCall(pos,

               covarPop,

               SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                       flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     }

     final SqlNode sumMulArg = SqlStdOperatorTable.SUM.createCall(pos, mulArg);

     final SqlNode sumArg0 = SqlStdOperatorTable.SUM.createCall(pos, arg0);

     final SqlNode mulSumAvg =

             SqlStdOperatorTable.MULTIPLY.createCall(pos, sumArg0, avgArg1);

     final SqlNode sub = SqlStdOperatorTable.MINUS.createCall(pos, sumMulArg, mulSumAvg);

     final SqlNode count = SqlStdOperatorTable.COUNT.createCall(pos, operand0);

     final SqlNumericLiteral one = SqlLiteral.createExactNumeric("1", pos);

     final SqlNode countEqOne = SqlStdOperatorTable.EQUALS.createCall(pos, count, one);

     final SqlNode countMinusOne = SqlStdOperatorTable.MINUS.createCall(pos, count, one);

     final SqlLiteral nul = SqlLiteral.createNull(pos);

     SqlNodeList whenList1 = new SqlNodeList(pos);

     SqlNodeList thenList1 = new SqlNodeList(pos);

     whenList1.add(countEqOne);

     thenList1.add(nul);

     final SqlNode int_denominator = SqlStdOperatorTable.CASE.createCall(

             null, pos, null, whenList1, thenList1, countMinusOne);

     final SqlNode denominator = SqlStdOperatorTable.CAST.createCall(pos,

             int_denominator,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

     final SqlNode covarSamp =

             SqlStdOperatorTable.DIVIDE.createCall(pos, sub, denominator);

     return SqlStdOperatorTable.CAST.createCall(pos,

             covarSamp,

             SqlTypeUtil.convertTypeToSpec(typeFactory.createSqlType(

                     flt ? SqlTypeName.FLOAT : SqlTypeName.DOUBLE)));

   }


   private SqlNode expandCorrelation(

           final SqlBasicCall proj_call, RelDataTypeFactory typeFactory) {

     // Expand correlation coefficient

     if (proj_call.operandCount() != 2) {

       return null;

     }

     boolean flt;

     if (proj_call.getOperator().isName("CORR", false)

             || proj_call.getOperator().getName().equalsIgnoreCase("CORRELATION")) {

       // expand correlation coefficient

       flt = false;

     } else if (proj_call.getOperator().getName().equalsIgnoreCase("CORR_FLOAT")

             || proj_call.getOperator().getName().equalsIgnoreCase("CORRELATION_FLOAT")) {

       // expand correlation coefficient

       flt = true;

     } else {

       return null;

     }

     // corr(x, y) ==> (avg(x * y) - avg(x) * avg(y)) / (stddev_pop(x) *

     // stddev_pop(y))

     // ==> covar_pop(x, y) / (stddev_pop(x) * stddev_pop(y))

     final SqlNode operand0 = proj_call.operand(0);

     final SqlNode operand1 = proj_call.operand(1);

     final SqlParserPos pos = proj_call.getParserPosition();

     SqlNode covariance =

             expandCovariance(pos, operand0, operand1, true, flt, typeFactory);

     SqlNode stddev0 = expandVariance(pos, operand0, true, true, flt, typeFactory);

     SqlNode stddev1 = expandVariance(pos, operand1, true, true, flt, typeFactory);

     final SqlNode mulStddev =

             SqlStdOperatorTable.MULTIPLY.createCall(pos, stddev0, stddev1);

     final SqlNumericLiteral zero = SqlLiteral.createExactNumeric("0.0", pos);

     final SqlNode mulStddevEqZero =

             SqlStdOperatorTable.EQUALS.createCall(pos, mulStddev, zero);

     final SqlLiteral nul = SqlLiteral.createNull(pos);

     SqlNodeList whenList1 = new SqlNodeList(pos);

     SqlNodeList thenList1 = new SqlNodeList(pos);

     whenList1.add(mulStddevEqZero);

     thenList1.add(nul);

     final SqlNode denominator = SqlStdOperatorTable.CASE.createCall(

             null, pos, null, whenList1, thenList1, mulStddev);

     final SqlNode expanded_proj_call =

             SqlStdOperatorTable.DIVIDE.createCall(pos, covariance, denominator);

     MAPDLOGGER.debug("Expanded select_list SqlCall: " + proj_call.toString());

     MAPDLOGGER.debug("to : " + expanded_proj_call.toString());

     return expanded_proj_call;

   }


   public SqlIdentifierCapturer captureIdentifiers(String sql, boolean legacy_syntax)

           throws SqlParseException {

     try {

       Planner planner = getPlanner();

       SqlNode node = parseSql(sql, legacy_syntax, planner);

       return captureIdentifiers(node);

     } catch (Exception | Error e) {

       MAPDLOGGER.error("Error parsing sql: " + sql, e);

       return new SqlIdentifierCapturer();

     }

   }


   public SqlIdentifierCapturer captureIdentifiers(SqlNode node) throws SqlParseException {

     try {

       SqlIdentifierCapturer capturer = new SqlIdentifierCapturer();

       capturer.scan(node);

       return capturer;

     } catch (Exception | Error e) {

       MAPDLOGGER.error("Error parsing sql: " + node, e);

       return new SqlIdentifierCapturer();

     }

   }


   public int getCallCount() {

     return callCount;

   }


   public void updateMetaData(String schema, String table) {

     MAPDLOGGER.debug("schema :" + schema + " table :" + table);

     MapDSchema mapd =

             new MapDSchema(dataDir, this, mapdPort, null, sock_transport_properties);

     mapd.updateMetaData(schema, table);

   }


   protected RelDataTypeSystem createTypeSystem() {

     final MapDTypeSystem typeSystem = new MapDTypeSystem();

     return typeSystem;

   }

 }

com.mapd.calcite.parser.MapDParser.dataDir
final String dataDir
Definition: MapDParser.java:144

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SqlNode expand(final SqlNode node, final java.util.Map< String, SqlNode > id_to_expr, RelDataTypeFactory typeFactory)
Definition: MapDParser.java:1058

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String getDB()
Definition: MapDUser.java:35

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static final EnumSet< SqlKind > IN
Definition: MapDParser.java:133

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Definition: sqldefs.h:107

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static final EnumSet< SqlKind > SCALAR
Definition: MapDParser.java:128

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Definition: MapDParser.java:842

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void desugarExpression(SqlNode node, RelDataTypeFactory typeFactory)
Definition: MapDParser.java:1040

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SqlNode expandCovariance(final SqlBasicCall proj_call, RelDataTypeFactory typeFactory)
Definition: MapDParser.java:1246

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SqlNode expandCorrelation(final SqlBasicCall proj_call, RelDataTypeFactory typeFactory)
Definition: MapDParser.java:1338

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Definition: MapDSchema.java:31

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Definition: MapDTable.java:37

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tuple res
Definition: run_benchmark_import.py:381

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final int mapdPort
Definition: MapDParser.java:147

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Definition: MapDParser.java:722

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Definition: MapDSqlOperatorTable.java:87

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MapDPlanner getPlanner()
Definition: MapDParser.java:202

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Definition: MapDUser.java:22

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Pair< String, SqlIdentifierCapturer > process(String sql, final MapDParserOptions parserOptions)
Definition: MapDParser.java:365

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int callCount
Definition: MapDParser.java:146

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std::string join(T const &container, std::string const &delim)
Definition: StringTransform.h:64

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Definition: run_benchmark_import.py:55

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Definition: SqlToRelConverter.java:218

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Definition: JsonSerializableDdl.java:5

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Definition: MapDView.java:39

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SqlNode expandCase(SqlCase old_case_node, RelDataTypeFactory typeFactory)
Definition: MapDParser.java:939

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static final EnumSet< SqlKind > ARRAY_VALUE
Definition: MapDParser.java:134

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final Supplier< MapDSqlOperatorTable > mapDSqlOperatorTable
Definition: MapDParser.java:143

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SqlNode expandVariance(final SqlParserPos pos, final SqlNode operand, boolean biased, boolean sqrt, boolean flt, RelDataTypeFactory typeFactory)
Definition: MapDParser.java:1164

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SqlIdentifierCapturer getAccessedObjects()
Definition: MapDView.java:66

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void updateMetaData(String schema, String table)
Definition: MapDParser.java:1412

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MapDParser(String dataDir, final Supplier< MapDSqlOperatorTable > mapDSqlOperatorTable, int mapdPort, SockTransportProperties skT)
Definition: MapDParser.java:154

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String processSql(String sql, final MapDParserOptions parserOptions)
Definition: MapDParser.java:376

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SqlIdentifierCapturer captureIdentifiers(SqlNode node)
Definition: MapDParser.java:1397

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SqlSelect rewriteSimpleUpdateAsSelect(final SqlUpdate update)
Definition: MapDParser.java:447

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SockTransportProperties sock_transport_properties
Definition: MapDParser.java:150

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Definition: SqlIdentifierCapturer.java:34

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static final SqlArrayValueConstructorAllowingEmpty ARRAY_VALUE_CONSTRUCTOR
Definition: MapDSqlOperatorTable.java:88

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static final EnumSet< SqlKind > EXISTS
Definition: MapDParser.java:130

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SqlNode parseSql(String sql, final boolean legacy_syntax, Planner planner)
Definition: MapDParser.java:890

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SqlNode sqlNode_
Definition: MapDParser.java:149

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static final EnumSet< SqlKind > UPDATE
Definition: MapDParser.java:132

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MapDUser mapdUser
Definition: MapDParser.java:148

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SqlIdentifierCapturer captureIdentifiers(String sql, boolean legacy_syntax)
Definition: MapDParser.java:1385

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int getCallCount()
Definition: MapDParser.java:1408

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static Map< String, Boolean > SubqueryCorrMemo
Definition: MapDParser.java:152

ExtArgumentType::Void

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Definition: MapDParserOptions.java:28

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static final Logger MAPDLOGGER
Definition: MapDParser.java:137

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Set< String > resolveSelectIdentifiers(SqlIdentifierCapturer capturer)
Definition: MapDParser.java:414

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Definition: MapDPlanner.java:61

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RelRoot convertSqlToRelNode(final SqlNode sqlNode, final MapDPlanner mapDPlanner, final MapDParserOptions parserOptions)
Definition: MapDParser.java:729

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String getTableName(SqlNode node)
Definition: MapDParser.java:436

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Definition: MapDParser.java:206

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Definition: MapDSchema.java:51

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int64_t const int32_t sz assert(dest)

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Definition: MapDParser.java:386

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Definition: MapDParser.java:361

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Definition: MapDParser.java:1088

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Definition: MapDParser.java:1279

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static final HintStrategyTable HINT_STRATEGY_TABLE
Definition: OmniSciHintStrategyTable.java:7

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Definition: MapDParser.java:164

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Definition: MapDParser.java:935

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Definition: SockTransportProperties.java:34

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Definition: MapDTypeSystem.java:22

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Definition: MapDParser.java:126

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Definition: OmniSciHintStrategyTable.java:6

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Definition: SqlIdentifierCapturer.java:42

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Definition: MapDParser.java:985

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Definition: MapDParser.java:127

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Definition: MapDParser.java:1107

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Definition: ExtensionFunction.java:28

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Definition: MapDParser.java:409

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static final EnumSet< SqlKind > DELETE
Definition: MapDParser.java:131

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Definition: MapDParser.java:228

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static final Context MAPD_CONNECTION_CONTEXT
Definition: MapDParser.java:168

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Definition: MapDParser.java:1419

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Definition: MapDParser.java:544

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Definition: run_benchmark_import.py:89

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Definition: MapDParser.java:557

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Definition: run_benchmark_import.py:441