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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to you 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 org.apache.calcite.piglet;

import org.apache.calcite.rel.RelNode;
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.rex.RexBuilder;
import org.apache.calcite.rex.RexLiteral;
import org.apache.calcite.rex.RexNode;
import org.apache.calcite.sql.SqlOperator;
import org.apache.calcite.sql.fun.SqlStdOperatorTable;
import org.apache.calcite.sql.type.SqlTypeName;
import org.apache.calcite.tools.PigRelBuilder;
import org.apache.calcite.tools.RelBuilder;
import org.apache.calcite.util.Pair;

import com.google.common.collect.ImmutableList;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

/**
 * Walks over a Piglet AST and calls the corresponding methods in a
 * {@link PigRelBuilder}.
 */
public class Handler {
  private final PigRelBuilder builder;
  private final Map map = new HashMap<>();

  public Handler(PigRelBuilder builder) {
    this.builder = builder;
  }

  /** Creates relational expressions for a given AST node. */
  public Handler handle(Ast.Node node) {
    final RelNode input;
    final List rexNodes;
    switch (node.op) {
    case LOAD:
      final Ast.LoadStmt load = (Ast.LoadStmt) node;
      builder.scan((String) load.name.value);
      register(load.target.value);
      return this;
    case VALUES:
      final Ast.ValuesStmt values = (Ast.ValuesStmt) node;
      final RelDataType rowType = toType(values.schema);
      builder.values(tuples(values, rowType), rowType);
      register(values.target.value);
      return this;
    case FOREACH:
      final Ast.ForeachStmt foreach = (Ast.ForeachStmt) node;
      builder.clear();
      input = map.get(foreach.source.value);
      builder.push(input);
      rexNodes = new ArrayList<>();
      for (Ast.Node exp : foreach.expList) {
        rexNodes.add(toRex(exp));
      }
      builder.project(rexNodes);
      register(foreach.target.value);
      return this;
    case FOREACH_NESTED:
      final Ast.ForeachNestedStmt foreachNested = (Ast.ForeachNestedStmt) node;
      builder.clear();
      input = map.get(foreachNested.source.value);
      builder.push(input);
      System.out.println(input.getRowType());
      for (RelDataTypeField field : input.getRowType().getFieldList()) {
        switch (field.getType().getSqlTypeName()) {
        case ARRAY:
          System.out.println(field);
        }
      }
      for (Ast.Stmt stmt : foreachNested.nestedStmtList) {
        handle(stmt);
      }
      rexNodes = new ArrayList<>();
      for (Ast.Node exp : foreachNested.expList) {
        rexNodes.add(toRex(exp));
      }
      builder.project(rexNodes);
      register(foreachNested.target.value);
      return this;
    case FILTER:
      final Ast.FilterStmt filter = (Ast.FilterStmt) node;
      builder.clear();
      input = map.get(filter.source.value);
      builder.push(input);
      final RexNode rexNode = toRex(filter.condition);
      builder.filter(rexNode);
      register(filter.target.value);
      return this;
    case DISTINCT:
      final Ast.DistinctStmt distinct = (Ast.DistinctStmt) node;
      builder.clear();
      input = map.get(distinct.source.value);
      builder.push(input);
      builder.distinct(null, -1);
      register(distinct.target.value);
      return this;
    case ORDER:
      final Ast.OrderStmt order = (Ast.OrderStmt) node;
      builder.clear();
      input = map.get(order.source.value);
      builder.push(input);
      final List nodes = new ArrayList<>();
      for (Pair field : order.fields) {
        toSortRex(nodes, field);
      }
      builder.sort(nodes);
      register(order.target.value);
      return this;
    case LIMIT:
      final Ast.LimitStmt limit = (Ast.LimitStmt) node;
      builder.clear();
      input = map.get(limit.source.value);
      final int count = ((Number) limit.count.value).intValue();
      builder.push(input);
      builder.limit(0, count);
      register(limit.target.value);
      return this;
    case GROUP:
      final Ast.GroupStmt group = (Ast.GroupStmt) node;
      builder.clear();
      input = map.get(group.source.value);
      builder.push(input).as(group.source.value);
      final List groupKeys = new ArrayList<>();
      final List keys = new ArrayList<>();
      if (group.keys != null) {
        for (Ast.Node key : group.keys) {
          keys.add(toRex(key));
        }
      }
      groupKeys.add(builder.groupKey(keys));
      builder.group(PigRelBuilder.GroupOption.COLLECTED, null, -1, groupKeys);
      register(group.target.value);
      return this;
    case PROGRAM:
      final Ast.Program program = (Ast.Program) node;
      for (Ast.Stmt stmt : program.stmtList) {
        handle(stmt);
      }
      return this;
    case DUMP:
      final Ast.DumpStmt dump = (Ast.DumpStmt) node;
      final RelNode relNode = map.get(dump.relation.value);
      dump(relNode);
      return this; // nothing to do; contains no algebra
    default:
      throw new AssertionError("unknown operation " + node.op);
    }
  }

  /** Executes a relational expression and prints the output.
   *
   * 

The default implementation does nothing. * * @param rel Relational expression */ protected void dump(RelNode rel) { } private ImmutableList> tuples( Ast.ValuesStmt valuesStmt, RelDataType rowType) { final ImmutableList.Builder> listBuilder = ImmutableList.builder(); for (List nodeList : valuesStmt.tupleList) { listBuilder.add(tuple(nodeList, rowType)); } return listBuilder.build(); } private ImmutableList tuple(List nodeList, RelDataType rowType) { final ImmutableList.Builder listBuilder = ImmutableList.builder(); for (Pair pair : Pair.zip(nodeList, rowType.getFieldList())) { final Ast.Node node = pair.left; final RelDataType type = pair.right.getType(); listBuilder.add(item(node, type)); } return listBuilder.build(); } private ImmutableList bag(List nodeList, RelDataType type) { final ImmutableList.Builder listBuilder = ImmutableList.builder(); for (Ast.Node node : nodeList) { listBuilder.add(item(node, type.getComponentType())); } return listBuilder.build(); } private RexLiteral item(Ast.Node node, RelDataType type) { final RexBuilder rexBuilder = builder.getRexBuilder(); switch (node.op) { case LITERAL: final Ast.Literal literal = (Ast.Literal) node; return (RexLiteral) rexBuilder.makeLiteral(literal.value, type, false); case TUPLE: final Ast.Call tuple = (Ast.Call) node; final ImmutableList list = tuple(tuple.operands, type); return (RexLiteral) rexBuilder.makeLiteral(list, type, false); case BAG: final Ast.Call bag = (Ast.Call) node; final ImmutableList list2 = bag(bag.operands, type); return (RexLiteral) rexBuilder.makeLiteral(list2, type, false); default: throw new IllegalArgumentException("not a literal: " + node); } } private RelDataType toType(Ast.Schema schema) { final RelDataTypeFactory.Builder typeBuilder = builder.getTypeFactory().builder(); for (Ast.FieldSchema fieldSchema : schema.fieldSchemaList) { typeBuilder.add(fieldSchema.id.value, toType(fieldSchema.type)); } return typeBuilder.build(); } private RelDataType toType(Ast.Type type) { switch (type.op) { case SCALAR_TYPE: return toType((Ast.ScalarType) type); case BAG_TYPE: return toType((Ast.BagType) type); case MAP_TYPE: return toType((Ast.MapType) type); case TUPLE_TYPE: return toType((Ast.TupleType) type); default: throw new AssertionError("unknown type " + type); } } private RelDataType toType(Ast.ScalarType type) { final RelDataTypeFactory typeFactory = builder.getTypeFactory(); switch (type.name) { case "boolean": return typeFactory.createSqlType(SqlTypeName.BOOLEAN); case "int": return typeFactory.createSqlType(SqlTypeName.INTEGER); case "float": return typeFactory.createSqlType(SqlTypeName.REAL); default: return typeFactory.createSqlType(SqlTypeName.VARCHAR); } } private RelDataType toType(Ast.BagType type) { final RelDataTypeFactory typeFactory = builder.getTypeFactory(); final RelDataType t = toType(type.componentType); return typeFactory.createMultisetType(t, -1); } private RelDataType toType(Ast.MapType type) { final RelDataTypeFactory typeFactory = builder.getTypeFactory(); final RelDataType k = toType(type.keyType); final RelDataType v = toType(type.valueType); return typeFactory.createMapType(k, v); } private RelDataType toType(Ast.TupleType type) { final RelDataTypeFactory typeFactory = builder.getTypeFactory(); final RelDataTypeFactory.Builder builder = typeFactory.builder(); for (Ast.FieldSchema fieldSchema : type.fieldSchemaList) { builder.add(fieldSchema.id.value, toType(fieldSchema.type)); } return builder.build(); } private void toSortRex(List nodes, Pair pair) { if (pair.left.isStar()) { for (RexNode node : builder.fields()) { switch (pair.right) { case DESC: node = builder.desc(node); } nodes.add(node); } } else { RexNode node = toRex(pair.left); switch (pair.right) { case DESC: node = builder.desc(node); } nodes.add(node); } } private RexNode toRex(Ast.Node exp) { final Ast.Call call; switch (exp.op) { case LITERAL: return builder.literal(((Ast.Literal) exp).value); case IDENTIFIER: final String value = ((Ast.Identifier) exp).value; if (value.matches("^\\$[0-9]+")) { int i = Integer.valueOf(value.substring(1)); return builder.field(i); } return builder.field(value); case DOT: call = (Ast.Call) exp; final RexNode left = toRex(call.operands.get(0)); final Ast.Identifier right = (Ast.Identifier) call.operands.get(1); return builder.dot(left, right.value); case EQ: case NE: case GT: case GTE: case LT: case LTE: case AND: case OR: case NOT: case PLUS: case MINUS: call = (Ast.Call) exp; return builder.call(op(exp.op), toRex(call.operands)); default: throw new AssertionError("unknown op " + exp.op); } } private static SqlOperator op(Ast.Op op) { switch (op) { case EQ: return SqlStdOperatorTable.EQUALS; case NE: return SqlStdOperatorTable.NOT_EQUALS; case GT: return SqlStdOperatorTable.GREATER_THAN; case GTE: return SqlStdOperatorTable.GREATER_THAN_OR_EQUAL; case LT: return SqlStdOperatorTable.LESS_THAN; case LTE: return SqlStdOperatorTable.LESS_THAN_OR_EQUAL; case AND: return SqlStdOperatorTable.AND; case OR: return SqlStdOperatorTable.OR; case NOT: return SqlStdOperatorTable.NOT; case PLUS: return SqlStdOperatorTable.PLUS; case MINUS: return SqlStdOperatorTable.MINUS; default: throw new AssertionError("unknown: " + op); } } private ImmutableList toRex(Iterable operands) { final ImmutableList.Builder builder = ImmutableList.builder(); for (Ast.Node operand : operands) { builder.add(toRex(operand)); } return builder.build(); } /** Assigns the current relational expression to a given name. */ private void register(String name) { map.put(name, builder.peek()); } } // End Handler.java





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