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groovy.sql.DataSet Maven / Gradle / Ivy
/*
* 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 groovy.sql;
import groovy.lang.Closure;
import groovy.lang.GroovyRuntimeException;
import org.codehaus.groovy.ast.ClassNode;
import org.codehaus.groovy.ast.MethodNode;
import org.codehaus.groovy.ast.CodeVisitorSupport;
import org.codehaus.groovy.ast.stmt.Statement;
import java.sql.Connection;
import java.sql.SQLException;
import java.sql.ResultSet;
import java.util.ArrayList;
import java.util.List;
import java.util.Map;
import java.util.Set;
/**
* An enhancement of Groovy's Sql class providing support for accessing
* and querying databases using POGO fields and operators rather than
* JDBC-level API calls and RDBMS column names. So, instead of a query like:
*
* def db = // an instance of groovy.sql.Sql
* def sql = '''select * from Person
* where (purchaseCount > ? and birthMonth = ?)
* and (lastName < ? or lastName > ?)
* and age < ? and age > ? and firstName != ?
* order by firstName DESC, age'''
* def params = [10, "January", "Zulu", "Alpha", 99, 5, "Bert"]
* def sortedPeopleOfInterest = db.rows(sql, params)
*
* You can write code like this:
*
* def person = new DataSet(db, 'Person') // or db.dataSet('Person'), or db.dataSet(Person)
* def janFrequentBuyers = person.findAll { it.purchaseCount > 10 && it.lastName == "January" }
* def sortedPeopleOfInterest = janFrequentBuyers.
* findAll{ it.lastName < 'Zulu' || it.lastName > 'Alpha' }.
* findAll{ it.age < 99 }.
* findAll{ it.age > 5 }.
* sort{ it.firstName }.reverse().
* findAll{ it.firstName != 'Bert' }.
* sort{ it.age }
*
* Currently, the Groovy source code for any accessed POGO must be on the
* classpath at runtime. Also, at the moment, the expressions (or nested expressions) can only contain
* references to fields of the POGO or literals (i.e. constant Strings or numbers). This limitation
* may be removed in a future version of Groovy.
*
* @author Chris Stevenson
* @author Paul King
* @author James Strachan
*/
public class DataSet extends Sql {
private static final int[] EMPTY_INT_ARRAY = new int[0];
private Closure where;
private Closure sort;
private boolean reversed = false;
private DataSet parent;
private String table;
private SqlWhereVisitor visitor;
private SqlOrderByVisitor sortVisitor;
private String sql;
private List params;
private List batchData;
private Set batchKeys;
private Sql delegate;
private boolean withinDataSetBatch = false;
public DataSet(Sql sql, Class type) {
super(sql);
delegate = sql;
String table = type.getName();
int idx = table.lastIndexOf('.');
if (idx > 0) {
table = table.substring(idx + 1);
}
this.table = table.toLowerCase();
}
public DataSet(Sql sql, String table) {
super(sql);
delegate = sql;
this.table = table;
}
private DataSet(DataSet parent, Closure where) {
super(parent);
this.delegate = parent.delegate;
this.table = parent.table;
this.parent = parent;
this.where = where;
}
private DataSet(DataSet parent, Closure where, Closure sort) {
super(parent);
this.delegate = parent.delegate;
this.table = parent.table;
this.parent = parent;
this.where = where;
this.sort = sort;
}
private DataSet(DataSet parent) {
super(parent);
this.delegate = parent.delegate;
this.table = parent.table;
this.parent = parent;
this.reversed = true;
}
@Override
protected Connection createConnection() throws SQLException {
return delegate.createConnection();
}
@Override
protected void closeResources(Connection connection, java.sql.Statement statement, ResultSet results) {
delegate.closeResources(connection, statement, results);
}
@Override
protected void closeResources(Connection connection, java.sql.Statement statement) {
delegate.closeResources(connection, statement);
}
@Override
public void cacheConnection(Closure closure) throws SQLException {
delegate.cacheConnection(closure);
}
@Override
public void withTransaction(Closure closure) throws SQLException {
delegate.withTransaction(closure);
}
@Override
public void commit() throws SQLException {
delegate.commit();
}
@Override
public void rollback() throws SQLException {
delegate.rollback();
}
/**
* Performs the closure (containing batch operations) within a batch.
* Uses a batch size of zero, i.e. no automatic partitioning of batches.
*
* @param closure the closure containing batch and optionally other statements
* @return an array of update counts containing one element for each
* command in the batch. The elements of the array are ordered according
* to the order in which commands were added to the batch.
* @throws SQLException if a database access error occurs,
* or this method is called on a closed Statement, or the
* driver does not support batch statements. Throws {@link java.sql.BatchUpdateException}
* (a subclass of SQLException) if one of the commands sent to the
* database fails to execute properly or attempts to return a result set.
*/
@Override
public int[] withBatch(Closure closure) throws SQLException {
return withBatch(0, closure);
}
/**
* Performs the closure (containing batch operations) within a batch.
* For example:
*
* dataSet.withBatch(3) {
* add(anint: 1, astring: "Groovy")
* add(anint: 2, astring: "rocks")
* add(anint: 3, astring: "the")
* add(anint: 4, astring: "casbah")
* }
*
*
* @param batchSize partition the batch into batchSize pieces, i.e. after batchSize
* addBatch() invocations, call executeBatch() automatically;
* 0 means manual calls to executeBatch are required
* @param closure the closure containing batch and optionally other statements
* @return an array of update counts containing one element for each
* command in the batch. The elements of the array are ordered according
* to the order in which commands were added to the batch.
* @throws SQLException if a database access error occurs, or the driver does not support batch statements.
* Throws {@link java.sql.BatchUpdateException} (a subclass of SQLException)
* if one of the commands sent to the database fails to execute properly.
*/
@Override
public int[] withBatch(int batchSize, Closure closure) throws SQLException {
batchData = new ArrayList();
withinDataSetBatch = true;
closure.call(this);
withinDataSetBatch = false;
if (batchData.isEmpty()) {
return EMPTY_INT_ARRAY;
}
Closure transformedClosure = new Closure(null) {
public void doCall(BatchingPreparedStatementWrapper stmt) throws SQLException {
for (Object next : batchData) {
stmt.addBatch(new Object[]{next});
}
}
};
return super.withBatch(batchSize, buildMapQuery(), transformedClosure);
}
/**
* Adds the provided map of key-value pairs as a new row in the table represented by this DataSet.
*
* @param map the key (column-name), value pairs to add as a new row
* @throws SQLException if a database error occurs
*/
public void add(Map map) throws SQLException {
if (withinDataSetBatch) {
if (batchData.isEmpty()) {
batchKeys = map.keySet();
} else {
if (!map.keySet().equals(batchKeys)) {
throw new IllegalArgumentException("Inconsistent keys found for batch add!");
}
}
batchData.add(map);
return;
}
int answer = executeUpdate(buildListQuery(map), new ArrayList(map.values()));
if (answer != 1) {
LOG.warning("Should have updated 1 row not " + answer + " when trying to add: " + map);
}
}
private String buildListQuery(Map map) {
StringBuilder buffer = new StringBuilder("insert into ");
buffer.append(table);
buffer.append(" (");
StringBuilder paramBuffer = new StringBuilder();
boolean first = true;
for (String column : map.keySet()) {
if (first) {
first = false;
paramBuffer.append("?");
} else {
buffer.append(", ");
paramBuffer.append(", ?");
}
buffer.append(column);
}
buffer.append(") values (");
buffer.append(paramBuffer.toString());
buffer.append(")");
return buffer.toString();
}
private String buildMapQuery() {
StringBuilder buffer = new StringBuilder("insert into ");
buffer.append(table);
buffer.append(" (");
StringBuilder paramBuffer = new StringBuilder();
boolean first = true;
for (String column : batchKeys) {
if (first) {
first = false;
paramBuffer.append(":");
} else {
buffer.append(", ");
paramBuffer.append(", :");
}
paramBuffer.append(column);
buffer.append(column);
}
buffer.append(") values (");
buffer.append(paramBuffer.toString());
buffer.append(")");
return buffer.toString();
}
/**
* Return a lazy-implemented filtered view of this DataSet.
*
* @param where the filtering Closure
* @return the view DataSet
*/
public DataSet findAll(Closure where) {
return new DataSet(this, where);
}
/**
* Return a lazy-implemented re-ordered view of this DataSet.
*
* @param sort the ordering Closure
* @return the view DataSet
*/
public DataSet sort(Closure sort) {
return new DataSet(this, null, sort);
}
/**
* Return a lazy-implemented reverse-ordered view of this DataSet.
*
* @return the view DataSet
*/
public DataSet reverse() {
if (sort == null) {
throw new GroovyRuntimeException("reverse() only allowed immediately after a sort()");
}
return new DataSet(this);
}
/**
* Calls the provided closure for each of the rows of the table represented by this DataSet.
*
* @param closure called for each row with a GroovyResultSet
* @throws SQLException if a database access error occurs
* @see groovy.sql.Sql#eachRow(String, java.util.List, groovy.lang.Closure)
*/
public void each(Closure closure) throws SQLException {
eachRow(getSql(), getParameters(), closure);
}
/**
* Calls the provided closure for a "page" of rows from the table represented by this DataSet.
* A page is defined as starting at a 1-based offset, and containing a maximum number of rows.
*
* @param offset the 1-based offset for the first row to be processed
* @param maxRows the maximum number of rows to be processed
* @param closure called for each row with a GroovyResultSet
* @throws SQLException if a database access error occurs
* @see groovy.sql.Sql#eachRow(String, java.util.List, int, int, groovy.lang.Closure)
*/
public void each(int offset, int maxRows, Closure closure) throws SQLException {
eachRow(getSql(), getParameters(), offset, maxRows, closure);
}
private String getSqlWhere() {
String whereClaus = "";
String parentClaus = "";
if (parent != null) {
parentClaus = parent.getSqlWhere();
}
if (where != null) {
whereClaus += getSqlWhereVisitor().getWhere();
}
if (parentClaus.length() == 0) return whereClaus;
if (whereClaus.length() == 0) return parentClaus;
return parentClaus + " and " + whereClaus;
}
private String getSqlOrderBy() {
String sortByClaus = "";
String parentClaus = "";
if (parent != null) {
parentClaus = parent.getSqlOrderBy();
}
if (reversed) {
if (parentClaus.length() > 0) parentClaus += " DESC";
}
if (sort != null) {
sortByClaus += getSqlOrderByVisitor().getOrderBy();
}
if (parentClaus.length() == 0) return sortByClaus;
if (sortByClaus.length() == 0) return parentClaus;
return parentClaus + ", " + sortByClaus;
}
public String getSql() {
if (sql == null) {
sql = "select * from " + table;
String whereClaus = getSqlWhere();
if (whereClaus.length() > 0) {
sql += " where " + whereClaus;
}
String orderByClaus = getSqlOrderBy();
if (orderByClaus.length() > 0) {
sql += " order by " + orderByClaus;
}
}
return sql;
}
public List getParameters() {
if (params == null) {
params = new ArrayList();
if (parent != null) {
params.addAll(parent.getParameters());
}
params.addAll(getSqlWhereVisitor().getParameters());
}
return params;
}
protected SqlWhereVisitor getSqlWhereVisitor() {
if (visitor == null) {
visitor = new SqlWhereVisitor();
visit(where, visitor);
}
return visitor;
}
protected SqlOrderByVisitor getSqlOrderByVisitor() {
if (sortVisitor == null) {
sortVisitor = new SqlOrderByVisitor();
visit(sort, sortVisitor);
}
return sortVisitor;
}
private static void visit(Closure closure, CodeVisitorSupport visitor) {
if (closure != null) {
ClassNode classNode = closure.getMetaClass().getClassNode();
if (classNode == null) {
throw new GroovyRuntimeException(
"DataSet unable to evaluate expression. AST not available for closure: " + closure.getMetaClass().getTheClass().getName() +
". Is the source code on the classpath?");
}
List methods = classNode.getDeclaredMethods("doCall");
if (!methods.isEmpty()) {
MethodNode method = (MethodNode) methods.get(0);
if (method != null) {
Statement statement = method.getCode();
if (statement != null) {
statement.visit(visitor);
}
}
}
}
}
/*
* create a subset of the original dataset
*/
public DataSet createView(Closure criteria) {
return new DataSet(this, criteria);
}
/**
* Returns a List of all of the rows from the table a DataSet
* represents.
*
* @return Returns a list of GroovyRowResult objects from the dataset
* @throws SQLException if a database error occurs
*/
public List rows() throws SQLException {
return rows(getSql(), getParameters());
}
/**
* Returns a "page" of the rows from the table a DataSet represents. A page
* is defined as starting at a 1-based offset, and containing a maximum number
* of rows.
*
* @param offset the 1-based offset for the first row to be processed
* @param maxRows the maximum number of rows to be processed
* @return a list of GroovyRowResult objects from the dataset
* @throws SQLException if a database error occurs
*/
public List rows(int offset, int maxRows) throws SQLException {
return rows(getSql(), getParameters(), offset, maxRows);
}
/**
* Returns the first row from a DataSet's underlying table
*
* @return Returns the first GroovyRowResult object from the dataset
* @throws SQLException if a database error occurs
*/
public Object firstRow() throws SQLException {
List rows = rows();
if (rows.isEmpty()) return null;
return (rows.get(0));
}
@Override
public void close() {
delegate.close();
super.close();
}
}
