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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.linq4j.tree;

import java.lang.reflect.Type;
import java.util.Objects;

/**
 * Represents an expression that has a binary operator.
 */
public class BinaryExpression extends Expression {
  public final Expression expression0;
  public final Expression expression1;
  private final Primitive primitive;

  BinaryExpression(ExpressionType nodeType, Type type, Expression expression0,
      Expression expression1) {
    super(nodeType, type);
    assert expression0 != null : "expression0 should not be null";
    assert expression1 != null : "expression1 should not be null";
    this.expression0 = expression0;
    this.expression1 = expression1;
    this.primitive = Primitive.of(expression0.getType());
  }

  @Override public Expression accept(Shuttle visitor) {
    visitor = visitor.preVisit(this);
    Expression expression0 = this.expression0.accept(visitor);
    Expression expression1 = this.expression1.accept(visitor);
    return visitor.visit(this, expression0, expression1);
  }

  public  R accept(Visitor visitor) {
    return visitor.visit(this);
  }

  public Object evaluate(Evaluator evaluator) {
    switch (nodeType) {
    case AndAlso:
      return (Boolean) expression0.evaluate(evaluator)
             && (Boolean) expression1.evaluate(evaluator);
    case Add:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator) + (Integer) expression1
            .evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator) + (Short) expression1
            .evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator) + (Byte) expression1
            .evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator) + (Float) expression1
            .evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               + (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               + (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case Divide:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator) / (Integer) expression1
            .evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator) / (Short) expression1
            .evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator) / (Byte) expression1
            .evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator) / (Float) expression1
            .evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
            / (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
            / (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case Equal:
      return expression0.evaluate(evaluator)
          .equals(expression1.evaluate(evaluator));
    case GreaterThan:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator) > (Integer) expression1
            .evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator) > (Short) expression1
            .evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator) > (Byte) expression1
            .evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator) > (Float) expression1
            .evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               > (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               > (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case GreaterThanOrEqual:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator)
               >= (Integer) expression1.evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator)
               >= (Short) expression1.evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator)
               >= (Byte) expression1.evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator)
               >= (Float) expression1.evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               >= (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               >= (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case LessThan:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator) < (Integer) expression1
            .evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator) < (Short) expression1
              .evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator) < (Byte) expression1
            .evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator) < (Float) expression1
            .evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               < (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               < (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case LessThanOrEqual:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator)
               <= (Integer) expression1.evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator)
               <= (Short) expression1.evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator)
               <= (Byte) expression1.evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator)
               <= (Float) expression1.evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               <= (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               <= (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case Multiply:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator) * (Integer) expression1
            .evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator) * (Short) expression1
            .evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator) * (Byte) expression1
            .evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator) * (Float) expression1
            .evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               * (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               * (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    case NotEqual:
      return !expression0.evaluate(evaluator)
          .equals(expression1.evaluate(evaluator));
    case OrElse:
      return (Boolean) expression0.evaluate(evaluator)
             || (Boolean) expression1.evaluate(evaluator);
    case Subtract:
      switch (primitive) {
      case INT:
        return (Integer) expression0.evaluate(evaluator) - (Integer) expression1
            .evaluate(evaluator);
      case SHORT:
        return (Short) expression0.evaluate(evaluator) - (Short) expression1
            .evaluate(evaluator);
      case BYTE:
        return (Byte) expression0.evaluate(evaluator) - (Byte) expression1
            .evaluate(evaluator);
      case FLOAT:
        return (Float) expression0.evaluate(evaluator) - (Float) expression1
            .evaluate(evaluator);
      case DOUBLE:
        return (Double) expression0.evaluate(evaluator)
               - (Double) expression1.evaluate(evaluator);
      case LONG:
        return (Long) expression0.evaluate(evaluator)
               - (Long) expression1.evaluate(evaluator);
      default:
        throw cannotEvaluate();
      }
    default:
      throw cannotEvaluate();
    }
  }

  void accept(ExpressionWriter writer, int lprec, int rprec) {
    if (writer.requireParentheses(this, lprec, rprec)) {
      return;
    }
    expression0.accept(writer, lprec, nodeType.lprec);
    writer.append(nodeType.op);
    expression1.accept(writer, nodeType.rprec, rprec);
  }

  private RuntimeException cannotEvaluate() {
    return new RuntimeException("cannot evaluate " + this + ", nodeType="
      + nodeType + ", primitive=" + primitive);
  }

  @Override public boolean equals(Object o) {
    if (this == o) {
      return true;
    }
    if (o == null || getClass() != o.getClass()) {
      return false;
    }
    if (!super.equals(o)) {
      return false;
    }

    BinaryExpression that = (BinaryExpression) o;

    if (!expression0.equals(that.expression0)) {
      return false;
    }
    if (!expression1.equals(that.expression1)) {
      return false;
    }
    if (primitive != that.primitive) {
      return false;
    }

    return true;
  }

  @Override public int hashCode() {
    return Objects.hash(nodeType, type, expression0, expression1, primitive);
  }
}

// End BinaryExpression.java




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