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/*
 * Copyright (c) 1998, 2018 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0 which is available at
 * http://www.eclipse.org/legal/epl-2.0,
 * or the Eclipse Distribution License v. 1.0 which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
 */

// Contributors:
//     Oracle - initial API and implementation from Oracle TopLink
package org.eclipse.persistence.internal.jpa.parsing;

import org.eclipse.persistence.expressions.*;
import org.eclipse.persistence.mappings.DatabaseMapping;
import org.eclipse.persistence.queries.ObjectLevelReadQuery;

/**
 * INTERNAL
 * 

Purpose: This is the superclass for all Nodes. *

Responsibilities:

    *
  • Answer default answers for all method calls *
  • Delegate most responsibilities to the sub-classes *
* @author Jon Driscoll and Joel Lucuik * @since TopLink 4.0 */ public class Node { private int line; private int column; protected Node left = null; protected Node right = null; private Object type; public boolean shouldGenerateExpression; protected String alias = null; /** * Return a new Node. */ public Node() { super(); } /** * INTERNAL * Apply this node to the passed query */ public void applyToQuery(ObjectLevelReadQuery theQuery, GenerationContext context) { } /** * INTERNAL * Add my expression semantics to the parentExpression. Each subclass will add a different expression and * thus will need to override this method */ public Expression addToExpression(Expression parentExpression, GenerationContext context) { return parentExpression; } /** * INTERNAL * Get the string representation of this node. * By default return toString() */ public String getAsString() { return toString(); } /** * INTERNAL * Check the child node for an unqualified field access and if so, * replace it by a qualified field access. */ public Node qualifyAttributeAccess(ParseTreeContext context) { if (left != null) { left = left.qualifyAttributeAccess(context); } if (right != null) { right = right.qualifyAttributeAccess(context); } return this; } /** * INTERNAL * Validate node and calculate its type. */ public void validate(ParseTreeContext context) { // Nothing to be validated here, but delegate to the child nodes. if (left != null) { left.validate(context); } if (right != null) { right.validate(context); } } /** * INTERNAL */ public void validateParameter(ParseTreeContext context, Object contextType) { // nothing to be done } /** * INTERNAL * Generate an expression for the node. Each subclass will generate a different expression and * thus will need to override this method */ public Expression generateExpression(GenerationContext context) { return null; } /** * INTERNAL * Return the left node */ public Node getLeft() { return left; } /** * INTERNAL * Return the right node */ public Node getRight() { return right; } /** * INTERNAL * Does this node have a left */ public boolean hasLeft() { return getLeft() != null; } /** * INTERNAL * Does this node have a right */ public boolean hasRight() { return getRight() != null; } /** * INTERNAL * Is this node an Aggregate node */ public boolean isAggregateNode() { return false; } /** * INTERNAL * Is this node a Dot node */ public boolean isDotNode() { return false; } /** * INTERNAL * Is this a literal node */ public boolean isLiteralNode() { return false; } /** * INTERNAL * Is this node a Multiply node */ public boolean isMultiplyNode() { return false; } /** * INTERNAL * Is this node a Not node */ public boolean isNotNode() { return false; } /** * INTERNAL * Is this a Parameter node */ public boolean isParameterNode() { return false; } /** * INTERNAL * Is this node a Divide node */ public boolean isDivideNode() { return false; } /** * INTERNAL * Is this node a Plus node */ public boolean isPlusNode() { return false; } /** * INTERNAL * Is this node a MapKey node */ public boolean isMapKeyNode() { return false; } /** * INTERNAL * Is this node a Minus node */ public boolean isMinusNode() { return false; } /** * INTERNAL * Is this node a VariableNode */ public boolean isVariableNode() { return false; } /** * INTERNAL * Is this node an AttributeNode */ public boolean isAttributeNode() { return false; } /** * INTERNAL * Is this node a CountNode */ public boolean isCountNode() { return false; } /** * INTERNAL * Is this node a ConstructorNode */ public boolean isConstructorNode() { return false; } /** * INTERNAL * Is this node a SubqueryNode */ public boolean isSubqueryNode() { return false; } /** * INTERNAL * Is this an escape node */ public boolean isEscape() { return false;// no it is not } /** * resolveAttribute(): Answer the name of the attribute which is represented by the receiver. * Subclasses should override this. */ public String resolveAttribute() { return ""; } /** * resolveClass: Answer the class associated with the content of this node. Default is to return null. * Subclasses should override this. */ public Class resolveClass(GenerationContext context) { return null; } /** * resolveClass: Answer the class associated with the content of this node. Default is to return null. * Subclasses should override this. */ public Class resolveClass(GenerationContext context, Class ownerClass) { return null; } /** * resolveMapping: Answer the mapping associated with the contained nodes. * Subclasses should override this. */ public DatabaseMapping resolveMapping(GenerationContext context) { return null; } /** * resolveMapping: Answer the mapping associated with the contained nodes. Use the provided * class as the context. * Subclasses should override this. */ public DatabaseMapping resolveMapping(GenerationContext context, Class ownerClass) { return null; } /** * INTERNAL * Set the left node to the passed value */ public void setLeft(Node newLeft) { left = newLeft; } /** * INTERNAL * Set the right for this node */ public void setRight(Node newRight) { right = newRight; } public int getLine() { return line; } public void setLine(int line) { this.line = line; } public int getColumn() { return column; } public void setColumn(int column) { this.column = column; } /** * INTERNAL * Return the type of this node. */ public Object getType() { return type; } /** * INTERNAL * Set this node's type. */ public void setType(Object type) { this.type = type; } /** * INTERNAL * Returns left.and(right) if both are defined. */ public Expression appendExpression(Expression left, Expression right) { Expression expr = null; if (left == null) { expr = right; } else if (right == null) { expr = left; } else { expr = left.and(right); } return expr; } public String toString() { try { return toString(1); } catch (Throwable t) { return t.toString(); } } public String toString(int indent) { StringBuilder buffer = new StringBuilder(); buffer.append(toStringDisplayName()); buffer.append("\r\n"); toStringIndent(indent, buffer); if (hasLeft()) { buffer.append("Left: " + getLeft().toString(indent + 1)); } else { buffer.append("Left: null"); } buffer.append("\r\n"); toStringIndent(indent, buffer); if (hasRight()) { buffer.append("Right: " + getRight().toString(indent + 1)); } else { buffer.append("Right: null"); } return buffer.toString(); } public String toStringDisplayName() { return getClass().toString().substring(getClass().toString().lastIndexOf('.') + 1, getClass().toString().length()); } public void toStringIndent(int indent, StringBuilder buffer) { for (int i = 0; i < indent; i++) { buffer.append(" "); } } public String getAlias(){ return this.alias; } public void setAlias(String alias){ this.alias = alias; } public boolean isAliasableNode(){ return false; } }




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