<?xml version="1.0" encoding="UTF-8"?>

<chapter xmlns="http://docbook.org/ns/docbook" version="5.0"

xmlns:xlink="http://www.w3.org/1999/xlink"

xmlns:xi="http://www.w3.org/2001/XInclude"

xml:id="jdbc">

<title>Data access with JDBC</title>

<section id="jdbc-introduction">

<title>Introduction to Spring Framework JDBC</title>

<para>The value-add provided by the Spring Framework JDBC abstraction is

perhaps best shown by the sequence of actions outlined in the table below.

The table shows what actions Spring will take care of and which actions

are the responsibility of you, the application developer.<!--Is this sequence correct, as far as what developer does and doesn't do? Does it adhere to info in the rest of the chapter?

--><!--How does JDBC know what connection parameters are if a human does not at some point define them?--><!--TR: OK. I have rewritten this as a table indicating who has what responsibility. --></para>

<table align="left" width="">

<title>Spring JDBC - who does what?</title>

<tgroup cols="3">

<colspec colnum="1" colwidth="350" />

<colspec colnum="2" colwidth="40" />

<colspec colnum="3" colwidth="40" />

<thead>

<row>

<entry align="center">Action</entry>

<entry align="center">Spring</entry>

<entry align="center">You</entry>

</row>

</thead>

<tbody>

<row>

<entry>Define connection parameters.</entry>

<entry align="center"><emphasis role="bold"></emphasis></entry>

<entry align="center">X</entry>

</row>

<row>

<entry>Open the connection.</entry>

<entry align="center">X</entry>

<entry align="center"></entry>

</row>

<row>

<entry>Specify the SQL statement.</entry>

<entry align="center"></entry>

<entry align="center">X</entry>

</row>

<row>

<entry>Declare parameters and provide parameter values</entry>

<entry align="center"></entry>

<entry align="center">X</entry>

</row>

<row>

<entry>Prepare and execute the statement.</entry>

<entry align="center">X</entry>

<entry align="center"></entry>

</row>

<row>

<entry>Set up the loop to iterate through the results (if

any).</entry>

<entry align="center">X</entry>

<entry align="center"></entry>

</row>

<row>

<entry>Do the work for each iteration.</entry>

<entry align="center"></entry>

<entry align="center">X</entry>

</row>

<row>

<entry>Process any exception.</entry>

<entry align="center">X</entry>

<entry align="center"></entry>

</row>

<row>

<entry>Handle transactions.</entry>

<entry align="center">X</entry>

<entry align="center"></entry>

</row>

<row>

<entry>Close the connection, statement and resultset.</entry>

<entry align="center">X</entry>

<entry align="center"></entry>

</row>

</tbody>

</tgroup>

</table>

<para>The Spring Framework takes care of all the low-level details that

can make JDBC such a tedious API to develop with.</para>

<section id="jdbc-choose-style">

<title>Choosing an approach for JDBC database access</title>

<para>You can choose among several approaches to form the basis for your

JDBC database access. In addition to three flavors of the JdbcTemplate,

a new SimpleJdbcInsert and SimplejdbcCall approach optimizes database

metadata, and the RDBMS Object style takes a more object-oriented

approach similar to that of JDO Query design. Once you start using one

of these approaches, you can still mix and match to include a feature

from a different approach. All approaches require a JDBC 2.0-compliant

driver, and some advanced features require a JDBC 3.0 driver.</para>

<note>

<para>Spring 3.0 updates all of the following approaches with Java 5

support such as generics and varargs.<!--Is there a formal name for varargs? Is this written correctly?I've inserted this note to avoid redundancy below.--></para>

</note>

<itemizedlist>

<listitem>

<para><emphasis role="bold">JdbcTemplate</emphasis> is the classic

Spring JDBC approach and the most popular. This "lowest level"

approach and all others use a JdbcTemplate under the covers, and all

are updated with Java 5 support such as generics and varargs.</para>

</listitem>

<listitem>

<para><emphasis role="bold">NamedParameterJdbcTemplate</emphasis>

wraps a <code>JdbcTemplate</code> to provide named parameters

instead of the traditional JDBC "?" placeholders. This approach

provides better documentation and ease of use when you have multiple

parameters for an SQL statement.</para>

</listitem>

<listitem>

<para><emphasis role="bold">SimpleJdbcTemplate</emphasis> combines

the most frequently used operations of JdbcTemplate and

NamedParameterJdbcTemplate.</para>

</listitem>

<listitem>

<para><emphasis role="bold">SimpleJdbcInsert and

SimpleJdbcCall</emphasis> optimize database metadata to limit the

amount of necessary configuration. This approach simplifies coding

so that you only need to provide the name of the table or procedure

and provide a map of parameters matching the column names. <!--Revise preceding to clarify: You *must* use this approach w/ SimpleJdbcTemplate, it is *recommended*, or you *can*?

This only works if the database provides adequate metadata. If the

database doesn't provide this metadata, you will have to provide

explicit configuration of the parameters.</para>

</listitem>

<listitem>

<para><emphasis role="bold">RDBMS Objects including MappingSqlQuery,

SqlUpdate and StoredProcedure</emphasis> requires you to create

reusable and thread-safe objects during initialization of your data

access layer. This approach is modeled after JDO Query wherein you

define your query string, declare parameters, and compile the query.

Once you do that, execute methods can be called multiple times with

various parameter values passed in.</para>

</listitem>

</itemizedlist>

</section>

<section id="jdbc-packages">

<title>Package hierarchy<!--I have provided links to main sections that deal with most packages. TR: OK--></title>

<para>The Spring Framework's JDBC abstraction framework consists of four

different packages, namely <literal>core</literal>,

<literal>datasource</literal>, <literal>object</literal>, and

<literal>support</literal>.</para>

<para>The <literal>org.springframework.jdbc.core</literal> package

contains the <classname>JdbcTemplate</classname> class and its various

callback interfaces, plus a variety of related classes. A subpackage

named <literal>org.springframework.jdbc.core.simple</literal> contains

the <classname>SimpleJdbcTemplate</classname> class and the related

<classname>SimpleJdbcInsert</classname> and

<classname>SimpleJdbcCall</classname> classes. Another subpackage named

<literal>org.springframework.jdbc.core.namedparam</literal> contains the

<classname>NamedParameterJdbcTemplate</classname> class and the related

support classes. See <xref linkend="jdbc-core" />, <xref

linkend="jdbc-advanced-jdbc" />, and <xref

linkend="jdbc-simple-jdbc" /></para>

<para>The <literal>org.springframework.jdbc.datasource</literal> package

contains a utility class for easy

<interfacename>DataSource</interfacename> access, and various simple

<interfacename>DataSource</interfacename> implementations that can be

used for testing and running unmodified JDBC code outside of a Java EE

container. A subpackage named

<literal>org.springfamework.jdbc.datasource.embedded</literal> provides

support for creating in-memory database instances using Java database

engines such as HSQL and H2. See <xref linkend="jdbc-connections" /> and

<xref linkend="jdbc-embedded-database-support" /></para>

<para>The <literal>org.springframework.jdbc.object</literal> package

contains classes that represent RDBMS queries, updates, and stored

procedures as thread safe, reusable objects. See <xref

linkend="jdbc-object" />.This approach is modeled by JDO, although of

course objects returned by queries are <quote>disconnected</quote> from

the database. This higher level of JDBC abstraction depends on the

lower-level abstraction in the

<literal>org.springframework.jdbc.core</literal> package.</para>

<para><!--Need x-ref for preceding and next sentences. TR: Revised, please review. Combined to single paragraph about exception translation.-->The

<literal>org.springframework.jdbc.support</literal> package provides

<classname>SQLException</classname> translation functionality and some

utility classes. Exceptions thrown during JDBC processing are translated

to exceptions defined in the <literal>org.springframework.dao</literal>

package. This means that code using the Spring JDBC abstraction layer

does not need to implement JDBC or RDBMS-specific error handling. All

translated exceptions are unchecked, which gives you the option of

catching the exceptions from which you can recover while allowing other

exceptions to be propagated to the caller. See <xref

linkend="jdbc-SQLExceptionTranslator" />.</para>

</section>

</section>

<section id="jdbc-core">

<title>Using the JDBC core classes to control basic JDBC processing and

error handling<!--Note: I moved the *DataSource* subsection out of this section because it seems to belong more under *Controlling database connections.*--><!--This section here is about core classes, but datasource is a separate package from core. See *Package hierarchy* section above. TR: OK--></title>

<section id="jdbc-JdbcTemplate">

<title><classname>JdbcTemplate</classname></title>

<para>The <classname>JdbcTemplate</classname> class is the central class

in the JDBC core package. It handles the creation and release of

resources, which helps you avoid common errors such as forgetting to

close the connection. It performs the basic tasks of the core JDBC

workflow such as statement creation and execution, leaving application

code to provide SQL and extract results. The

<classname>JdbcTemplate</classname> class executes SQL queries, update

statements and stored procedure calls, performs iteration over

<interfacename>ResultSet</interfacename>s and extraction of returned

parameter values.<!--The wording of the preceding sentence does not track. Which is correct: the class *executes* queries, *updated* statements, --><!--and stored procedure calls...OR the class *executes* queries and *updates* statements and stored procedure calls. Second part of--><!--sentence; is this clear? It *imitates* iteration and extraction? TR: Revised, please review. The class executes *SQL queries*, *update statements* or *stored procedure calls* ...-->

It also catches JDBC exceptions and translates them to the generic, more

informative, exception hierarchy defined in the

<literal>org.springframework.dao</literal> package.</para>

<para>When you use the <classname>JdbcTemplate</classname> for your

code, you only need to implement callback interfaces, giving them a

clearly defined contract. The

<interfacename>PreparedStatementCreator</interfacename> callback

interface creates a prepared statement given a

<interfacename>Connection</interfacename> provided by this class,

providing SQL and any necessary parameters. The same is true for the

<interfacename>CallableStatementCreator</interfacename> interface, which

creates callable statements. The

<interfacename>RowCallbackHandler</interfacename> interface extracts

values from each row of a

<interfacename>ResultSet</interfacename>.</para>

<!--and stored procedure calls? TR: they are handled by the CallableStatement; Queries and update statements are handled by PreparedStatement.-->

<para>The <classname>JdbcTemplate</classname> can be used within a DAO

implementation through direct instantiation with a

<interfacename>DataSource</interfacename> reference, or be configured in

a Spring IoC container and given to DAOs as a bean reference. <note>

<para>The <interfacename>DataSource</interfacename> should always be

configured as a bean in the Spring IoC container. In the first case

the bean is given to the service directly; in the second case it is

given to the prepared template.<!--I've revised so that it reads better, but please clarify second sentence: Specify what *the first case* is, what--><!--do you mean by *is given* and it's given to *which* service? First mention of a service. Specify what *second--><!-- case* is and what you mean by *is given*. TR: OK.--></para>

</note></para>

<para>All SQL issued by this class is logged at the

<literal>DEBUG</literal> level under the category corresponding to the

fully qualified class name of the template instance (typically

<classname>JdbcTemplate</classname>, but it may be different if you are

using a custom subclass of the <classname>JdbcTemplate</classname>

class).</para>

<section id="jdbc-JdbcTemplate-examples">

<title>Examples of JdbcTemplate class usage</title>

<para>This section provides some examples of

<classname>JdbcTemplate</classname> class usage. These examples are

not an exhaustive list of all of the functionality exposed by the

<classname>JdbcTemplate</classname>; see the attendant Javadocs for

that.</para>

<section id="jdbc-JdbcTemplate-examples-query">

<title>Querying (SELECT)</title>

<para>Here is a simple query for getting the number of rows in a

relation:</para>

<programlisting language="java">int rowCount = this.jdbcTemplate.queryForInt("select count(*) from t_actor");</programlisting>

<para>A simple query using a bind variable:</para>

<programlisting language="java">int countOfActorsNamedJoe = this.jdbcTemplate.queryForInt(

"select count(*) from t_actor where first_name = ?", "Joe");</programlisting>

<para>Querying for a <classname>String</classname>:</para>

<programlisting language="java">String lastName = this.jdbcTemplate.queryForObject(

"select last_name from t_actor where id = ?",

new Object[]{1212L}, String.class);</programlisting>

<para>Querying and populating a <emphasis>single</emphasis> domain

object:</para>

<programlisting language="java">Actor actor = this.jdbcTemplate.queryForObject(

"select first_name, last_name from t_actor where id = ?",

new Object[]{1212L},

new RowMapper&lt;Actor&gt;() {

public Actor mapRow(ResultSet rs, int rowNum) throws SQLException {

Actor actor = new Actor();

actor.setFirstName(rs.getString("first_name"));

actor.setLastName(rs.getString("last_name"));

return actor;

}

});

</programlisting>

<para>Querying and populating a number of domain objects:</para>

<programlisting language="java">List&lt;Actor&gt; actors = this.jdbcTemplate.query(

"select first_name, last_name from t_actor",

new RowMapper&lt;Actor&gt;() {

public Actor mapRow(ResultSet rs, int rowNum) throws SQLException {

Actor actor = new Actor();

actor.setFirstName(rs.getString("first_name"));

actor.setLastName(rs.getString("last_name"));

return actor;

}

});

</programlisting>

<para>If the last two snippets of code actually existed in the same

application, it would make sense to remove the duplication present

in the two <interfacename>RowMapper</interfacename> anonymous inner

classes, and extract them out into a single class (typically a

<literal>static</literal> inner class) that can then be referenced

by DAO methods as needed. For example, it may be better to write the

last code snippet as follows:</para>

<programlisting language="java">public List&lt;Actor&gt; findAllActors() {

return this.jdbcTemplate.query( "select first_name, last_name from t_actor", new ActorMapper());

}

private static final class ActorMapper implements RowMapper&lt;Actor&gt; {

public Actor mapRow(ResultSet rs, int rowNum) throws SQLException {

Actor actor = new Actor();

actor.setFirstName(rs.getString("first_name"));

actor.setLastName(rs.getString("last_name"));

return actor;

}

}</programlisting>

</section>

<section id="jdbc-JdbcTemplate-examples-update">

<title>Updating (INSERT/UPDATE/DELETE) with jdbcTemplate<!--Provide introductory text as with other examples. TR: OK.--></title>

<para>You use the <methodname>update(..)</methodname> method to

perform insert, update and delete operations. Parameter values are

usually provided as var args or alternatively as an object

array.</para>

<programlisting language="java">this.jdbcTemplate.update(

"insert into t_actor (first_name, last_name) values (?, ?)",

"Leonor", "Watling");</programlisting>

<programlisting language="java">this.jdbcTemplate.update(

"update t_actor set = ? where id = ?",

"Banjo", 5276L);</programlisting>

<programlisting language="java">this.jdbcTemplate.update(

"delete from actor where id = ?",

Long.valueOf(actorId));</programlisting>

</section>

<section id="jdbc-JdbcTemplate-examples-other">

<title>Other jdbcTemplate operations</title>

<para>You can use the <methodname>execute(..)</methodname> method to

execute any arbitrary SQL, and as such the method is often used for

DDL statements. It is heavily overloaded with variants taking

callback interfaces, binding variable arrays, and so on.</para>

<programlisting language="java">this.jdbcTemplate.execute("create table mytable (id integer, name varchar(100))");</programlisting>

<para>The following example invokes a simple stored procedure. More

sophisticated stored procedure support is <link

linkend="jdbc-StoredProcedure">covered later</link>.</para>

<programlisting language="java">this.jdbcTemplate.update(

"call SUPPORT.REFRESH_ACTORS_SUMMARY(?)",

Long.valueOf(unionId));</programlisting>

</section>

</section>

<section id="jdbc-JdbcTemplate-idioms">

<title><classname>JdbcTemplate</classname> best practices</title>

<para>Instances of the <classname>JdbcTemplate</classname> class are

<emphasis>threadsafe once configured</emphasis>. This is important

because it means that you can configure a single instance of a

<classname>JdbcTemplate</classname> and then safely inject this

<emphasis>shared</emphasis> reference into multiple DAOs (or

repositories). The <classname>JdbcTemplate</classname> is stateful, in

that it maintains a reference to a

<interfacename>DataSource</interfacename>, but this state is

<emphasis>not</emphasis> conversational state.</para>

<para>A common practice when using the

<classname>JdbcTemplate</classname> class (and the associated <link

linkend="jdbc-SimpleJdbcTemplate"><classname>SimpleJdbcTemplate</classname></link>

and <link

linkend="jdbc-NamedParameterJdbcTemplate"><classname>NamedParameterJdbcTemplate</classname></link>

classes) is to configure a <interfacename>DataSource</interfacename>

in your Spring configuration file, and then dependency-inject that

shared <interfacename>DataSource</interfacename> bean into your DAO

classes; the <classname>JdbcTemplate</classname> is created in the

setter for the <interfacename>DataSource</interfacename>. This leads

to DAOs that look in part like the following:</para>

<programlisting language="java">public class JdbcCorporateEventDao implements CorporateEventDao {

private JdbcTemplate jdbcTemplate;

public void setDataSource(DataSource dataSource) {

<emphasis role="bold">this.jdbcTemplate = new JdbcTemplate(dataSource);</emphasis>

}

<lineannotation>// JDBC-backed implementations of the methods on the <interfacename>CorporateEventDao</interfacename> follow...</lineannotation>

}</programlisting>

<para>The corresponding configuration might look like this.</para>

<programlisting language="xml">&lt;?xml version="1.0" encoding="UTF-8"?&gt;

&lt;beans xmlns="http://www.springframework.org/schema/beans"

xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"

xmlns:context="http://www.springframework.org/schema/context"

xsi:schemaLocation="

http://www.springframework.org/schema/beans

http://www.springframework.org/schema/beans/spring-beans-3.0.xsd

http://www.springframework.org/schema/context

http://www.springframework.org/schema/context/spring-context-3.0.xsd"&gt;

&lt;bean id="corporateEventDao" class="com.example.JdbcCorporateEventDao"&gt;

&lt;property name="dataSource" ref="dataSource"/&gt;

&lt;/bean&gt;

&lt;bean id="dataSource" class="org.apache.commons.dbcp.BasicDataSource" destroy-method="close"&gt;

&lt;property name="driverClassName" value="${jdbc.driverClassName}"/&gt;

&lt;property name="url" value="${jdbc.url}"/&gt;

&lt;property name="username" value="${jdbc.username}"/&gt;

&lt;property name="password" value="${jdbc.password}"/&gt;

&lt;/bean&gt;

&lt;context:property-placeholder location="jdbc.properties"/&gt;

&lt;/beans&gt;</programlisting>

<para>An alternative to explicit configuration is to use

component-scanning and annotation support for dependency injection. In

this case you annotate the class with

<interfacename>@Repository</interfacename> (which makes it a candidate

for component-scanning) and annotate the

<classname>DataSource</classname> setter method with

<interfacename>@Autowired</interfacename>.<!--Re preceding sentence, I don't see @Autowired in next two examples. TR: OK AS IS. Made it *bold*--></para>

<para><programlisting language="java"><emphasis role="bold">@Repository</emphasis>

public class JdbcCorporateEventDao implements CorporateEventDao {

private JdbcTemplate jdbcTemplate;

<emphasis role="bold">@Autowired</emphasis>

public void setDataSource(DataSource dataSource) {

<emphasis role="bold">this.jdbcTemplate = new JdbcTemplate(dataSource);</emphasis>

}

<lineannotation>// JDBC-backed implementations of the methods on the <interfacename>CorporateEventDao</interfacename> follow...</lineannotation>

}</programlisting></para>

<para>The corresponding XML configuration file <!--*corresponding* to what? TR: to the prvious code-snippet-->would

look like the following:</para>

<para><programlisting language="xml">&lt;?xml version="1.0" encoding="UTF-8"?&gt;

&lt;beans xmlns="http://www.springframework.org/schema/beans"

xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"

xmlns:context="http://www.springframework.org/schema/context"

xsi:schemaLocation="

http://www.springframework.org/schema/beans

http://www.springframework.org/schema/beans/spring-beans-3.0.xsd

http://www.springframework.org/schema/context

http://www.springframework.org/schema/context/spring-context-3.0.xsd"&gt;

&lt;!-- Scans within the base package of the application for @Components to configure as beans --&gt;

&lt;context:component-scan base-package="org.springframework.docs.test" /&gt;

&lt;bean id="dataSource" class="org.apache.commons.dbcp.BasicDataSource" destroy-method="close"&gt;

&lt;property name="driverClassName" value="${jdbc.driverClassName}"/&gt;

&lt;property name="url" value="${jdbc.url}"/&gt;

&lt;property name="username" value="${jdbc.username}"/&gt;

&lt;property name="password" value="${jdbc.password}"/&gt;

&lt;/bean&gt;

&lt;context:property-placeholder location="jdbc.properties"/&gt;

&lt;/beans&gt;</programlisting>If you are using Spring's

<classname>JdbcDaoSupport</classname> class, and your various

JDBC-backed DAO classes extend from it, then your sub-class inherits a

<methodname>setDataSource(..)</methodname> method from the

<classname>JdbcDaoSupport</classname> class. <!--Revise to clarify what you mean by inheriting method *for free*. For free as opposed to what? Also you don't inherit, don't your--><!--subclasses inherit? TR: Revised, please review.-->You

can choose whether to inherit from this class. The

<classname>JdbcDaoSupport</classname> class is provided as a

convenience only.</para>

<para>Regardless of which of the above template initialization styles

you choose to use (or not), it is seldom necessary to create a new

instance of a <classname>JdbcTemplate</classname> class each time you

want to execute SQL. Once configured, a

<classname>JdbcTemplate</classname> instance is threadsafe. You may

want multiple <classname>JdbcTemplate</classname> instances if your

application accesses multiple databases, which requires multiple

<interfacename>DataSources</interfacename>, and subsequently multiple

differently configured <classname>JdbcTemplates</classname>.</para>

</section>

</section>

<section id="jdbc-NamedParameterJdbcTemplate">

<title><classname>NamedParameterJdbcTemplate</classname></title>

<para>The <classname>NamedParameterJdbcTemplate</classname> class adds

support for programming JDBC statements using named parameters, as

opposed to programming JDBC statements using only classic placeholder

(<literal>'?'</literal>) arguments. The

<classname>NamedParameterJdbcTemplate</classname> class wraps a

<classname>JdbcTemplate</classname>, and delegates to the wrapped

<classname>JdbcTemplate</classname> to do much of its work. This section

describes only those areas of the

<classname>NamedParameterJdbcTemplate</classname> class that differ from

the <classname>JdbcTemplate</classname> itself; namely, programming JDBC

statements using named parameters.</para>

<programlisting language="java"><lineannotation>// some JDBC-backed DAO class...</lineannotation>

private NamedParameterJdbcTemplate namedParameterJdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.namedParameterJdbcTemplate = new NamedParameterJdbcTemplate(dataSource);

}

public int countOfActorsByFirstName(String firstName) {

String sql = "select count(*) from T_ACTOR where first_name = :first_name";

SqlParameterSource namedParameters = new MapSqlParameterSource("first_name", firstName);

return namedParameterJdbcTemplate.queryForInt(sql, namedParameters);

}</programlisting>

<para>Notice the use of the named parameter notation in the value

assigned to the <literal>sql</literal> variable, and the corresponding

value that is plugged into the <literal>namedParameters</literal>

variable (of type <classname>MapSqlParameterSource</classname>).</para>

<para>Alternatively, you can pass along named parameters and their

corresponding values to a

<classname>NamedParameterJdbcTemplate</classname> instance by using the

<interfacename>Map</interfacename>-based style.<!--Revision ok? Clarify to say *Alternatively* you can pass along OR *In addition* you can pass along, to clarify whether you can do this--><!--instead of doing what sentence before it says to do, or in addition to doing it. This needs to be clear. TR: OK.-->The

remaining methods exposed by the

<interfacename>NamedParameterJdbcOperations</interfacename> and

implemented by the <classname>NamedParameterJdbcTemplate</classname>

class follow a similar pattern and are not covered here.</para>

<para>The following example shows the use of the

<interfacename>Map</interfacename>-based style.<!--Need an intro sentence to the following example. What does it show, what's its purpose? TR: OK.--></para>

<programlisting language="java"><lineannotation>// some JDBC-backed DAO class...</lineannotation>

private NamedParameterJdbcTemplate namedParameterJdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.namedParameterJdbcTemplate = new NamedParameterJdbcTemplate(dataSource);

}

public int countOfActorsByFirstName(String firstName) {

String sql = "select count(*) from T_ACTOR where first_name = :first_name";

Map namedParameters = Collections.singletonMap("first_name", firstName);

return this.namedParameterJdbcTemplate.queryForInt(sql, namedParameters);

}</programlisting>

<para>One nice feature related to the

<classname>NamedParameterJdbcTemplate</classname> (and existing in the

same Java package) is the <classname>SqlParameterSource</classname>

interface. You have already seen an example of an implementation of this

interface in one of the previous code snippet (the

<classname>MapSqlParameterSource</classname> class). <!--Revision ok?Why say *another feature*? So far this is the only feature discussed for NamedParameterJDBC template. It's mentioned above.--><!--In next paragraph you do describe another implementation. --><!--TR: Revised, please review.--><interfacename>An

<classname>SqlParameterSource</classname></interfacename> is a source of

named parameter values to a

<classname>NamedParameterJdbcTemplate</classname>. The

<classname>MapSqlParameterSource</classname> class is a very simple

implementation that is simply an adapter around a

<interfacename>java.util.Map</interfacename>, where the keys are the

parameter names and the values are the parameter values.</para>

<para>Another <interfacename>SqlParameterSource</interfacename>

implementation is the

<classname>BeanPropertySqlParameterSource</classname> class. This class

wraps an arbitrary JavaBean (that is, an instance of a class that

adheres to <ulink

url="http://java.sun.com/products/javabeans/docs/spec.html">the JavaBean

conventions</ulink>), and uses the properties of the wrapped JavaBean as

the source of named parameter values.</para>

<programlisting language="java">public class Actor {

private Long id;

private String firstName;

private String lastName;

public String getFirstName() {

return this.firstName;

}

public String getLastName() {

return this.lastName;

}

public Long getId() {

return this.id;

}

<lineannotation>// setters omitted...</lineannotation>

}</programlisting>

<programlisting language="java"><lineannotation>// some JDBC-backed DAO class...</lineannotation>

private NamedParameterJdbcTemplate namedParameterJdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.namedParameterJdbcTemplate = new NamedParameterJdbcTemplate(dataSource);

}

public int countOfActors(Actor exampleActor) {

<lineannotation>// notice how the named parameters match the properties of the above '<classname>Actor</classname>' class</lineannotation>

String sql =

"select count(*) from T_ACTOR where first_name = :firstName and last_name = :lastName";

SqlParameterSource namedParameters = new BeanPropertySqlParameterSource(exampleActor);

return this.namedParameterJdbcTemplate.queryForInt(sql, namedParameters);

}</programlisting>

<para>Remember that the

<classname>NamedParameterJdbcTemplate</classname> class

<emphasis>wraps</emphasis> a classic <classname>JdbcTemplate</classname>

template; if you need access to the wrapped

<classname>JdbcTemplate</classname> instance to access functionality

only present in the <classname>JdbcTemplate</classname> class, you can

use the <methodname>getJdbcOperations()</methodname> method to access

the wrapped <classname>JdbcTemplate</classname> through the

<interfacename>JdbcOperations</interfacename> interface.</para>

<para>See also <xref linkend="jdbc-JdbcTemplate-idioms" /> for

guidelines on using the

<classname>NamedParameterJdbcTemplate</classname> class in the context

of an application.</para>

</section>

<section id="jdbc-SimpleJdbcTemplate">

<title><classname>SimpleJdbcTemplate</classname></title>

<para>The <classname>SimpleJdbcTemplate</classname> class wraps the

classic <classname>JdbcTemplate</classname> and leverages Java 5

language features such as varargs and autoboxing.</para>

<note>

<para>In Spring 3.0, the original <classname>JdbcTemplate</classname>

also supports Java 5-enhanced syntax with generics and varargs.

However, the <classname>SimpleJdbcTemplate</classname> provides a

simpler API that works best when you do not need access to all the

methods that the JdbcTemplate offers. Also, because the

<classname>SimpleJdbcTemplate</classname> was designed for Java 5, it

has more methods that take advantage of varargs due to different

ordering of the parameters.</para>

</note>

<para>The value-add of the <classname>SimpleJdbcTemplate</classname>

class in the area of syntactic-sugar is best illustrated with a

before-and-after example. The next code snippet shows data access code

that uses the classic <classname>JdbcTemplate</classname>, followed by a

code snippet that does the same job with the

<classname>SimpleJdbcTemplate</classname>.</para>

<programlisting language="java"><lineannotation>// classic <classname>JdbcTemplate</classname>-style...</lineannotation>

private JdbcTemplate jdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.jdbcTemplate = new JdbcTemplate(dataSource);

}

public Actor findActor(String specialty, int age) {

String sql = "select id, first_name, last_name from T_ACTOR" +

" where specialty = ? and age = ?";

RowMapper&lt;Actor&gt; mapper = new RowMapper&lt;Actor&gt;() {

public Actor mapRow(ResultSet rs, int rowNum) throws SQLException {

Actor actor = new Actor();

actor.setId(rs.getLong("id"));

actor.setFirstName(rs.getString("first_name"));

actor.setLastName(rs.getString("last_name"));

return actor;

}

};

<lineannotation>// notice the wrapping up of the arguments in an array</lineannotation>

return (Actor) jdbcTemplate.queryForObject(sql, new Object[] {specialty, age}, mapper);

}</programlisting>

<para>Here is the same method, with the

<classname>SimpleJdbcTemplate</classname>.<!--The code shown above is the same as the code shown below. What is the difference?

TR: difference is in the way the parameters are passed in on the last line; no need to use an Objcet[].--></para>

<programlisting language="java"><lineannotation>// <classname>SimpleJdbcTemplate</classname>-style...</lineannotation>

private SimpleJdbcTemplate simpleJdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.simpleJdbcTemplate = new SimpleJdbcTemplate(dataSource);

}

public Actor findActor(String specialty, int age) {

String sql = "select id, first_name, last_name from T_ACTOR" +

" where specialty = ? and age = ?";

RowMapper&lt;Actor&gt; mapper = new RowMapper&lt;Actor&gt;() {

public Actor mapRow(ResultSet rs, int rowNum) throws SQLException {

Actor actor = new Actor();

actor.setId(rs.getLong("id"));

actor.setFirstName(rs.getString("first_name"));

actor.setLastName(rs.getString("last_name"));

return actor;

}

};

<lineannotation>// notice the use of varargs since the parameter values now come

// after the RowMapper parameter</lineannotation>

return this.simpleJdbcTemplate.queryForObject(sql, mapper, specialty, age);

}</programlisting>

<para>See <xref linkend="jdbc-JdbcTemplate-idioms" /> for guidelines on

how to use the <classname>SimpleJdbcTemplate</classname> class in the

context of an application.</para>

<note>

<para>The <classname>SimpleJdbcTemplate</classname> class only offers

a subset of the methods exposed on the

<classname>JdbcTemplate</classname> class. If you need to use a method

from the <classname>JdbcTemplate</classname> that is not defined on

the <classname>SimpleJdbcTemplate</classname>, you can always access

the underlying <classname>JdbcTemplate</classname> by calling the

<methodname>getJdbcOperations()</methodname> method on the

<classname>SimpleJdbcTemplate</classname>, which then allows you to

invoke the method that you want. The only downside is that the methods

on the <interfacename>JdbcOperations</interfacename> interface are not

generic, so you are back to casting and so on.</para>

</note>

</section>

<section id="jdbc-SQLExceptionTranslator">

<title><interfacename>SQLExceptionTranslator</interfacename></title>

<para><interfacename>SQLExceptionTranslator</interfacename> is an

interface to be implemented by classes that can translate between

<classname>SQLExceptions</classname> and Spring's own

<classname>org.springframework.dao.DataAccessException</classname>,

which is agnostic in regard to data access strategy. Implementations can

be generic (for example, using SQLState codes for JDBC) or proprietary

(for example, using Oracle error codes) for greater precision.</para>

<para><classname>SQLErrorCodeSQLExceptionTranslator</classname> is the

implementation of <interfacename>SQLExceptionTranslator</interfacename>

that is used by default. This implementation uses specific vendor codes.

It is more precise than the <literal>SQLState</literal> implementation.

The error code translations are based on codes held in a JavaBean type

class called <classname>SQLErrorCodes</classname>. This class is created

and populated by an <classname>SQLErrorCodesFactory</classname> which as

the name suggests is a factory for creating

<classname>SQLErrorCodes</classname> based on the contents of a

configuration file named <filename

class="libraryfile">sql-error-codes.xml</filename>. This file is

populated with vendor codes and based on the

<code>DatabaseProductName</code> taken from the

<interfacename>DatabaseMetaData</interfacename>. The codes for the actual

database you are using are used.<!--what do you mean by *the current* database? --><!--TR: Revised, please review.--></para>

<para>The <classname>SQLErrorCodeSQLExceptionTranslator</classname>

applies matching rules in the following sequence: <!--This reflects sequence in which rules are applied, right? I revised to a numbered list.--><orderedlist

spacing="compact">

<note>

<para>The <classname>SQLErrorCodesFactory</classname> is used by

default to define Error codes and custom exception translations.

They are looked up in a file named

<filename>sql-error-codes.xml</filename> from the classpath and

the matching <classname>SQLErrorCodes</classname> instance is

located based on the database name from the database metadata of

the database in use.</para>

</note>

<listitem>

<para>Any custom translation implemented by a subclass. Normally

the provided concrete

<classname>SQLErrorCodeSQLExceptionTranslator</classname> is used

so this rule does not apply. It only applies if you have actually

provided a subclass implementation.<!--Pls revise last sentence to clarify. *Which* class is concrete? Why do you first refer to a subclass, then say *this class* is--><!--typically used and thus rule does not apply? This is really confusing.--><!--TR: Revised, please review.--></para>

</listitem>

<listitem>

<para>Any custom implementation of the

<classname>SQLExceptionTranslator</classname> interface that is

provided as the

<classname>customSqlExceptionTranslator</classname> property of

the <classname>SQLErrorCodes</classname> class.</para>

</listitem>

<listitem>

<para>The list of instances of the

<classname>CustomSQLErrorCodesTranslation</classname> class,

provided for the <classname>customTranslations</classname>

property of the <classname>SQLErrorCodes</classname> class, are

searched for a match.</para>

</listitem>

<listitem>

<para>Error code matching is applied.<!--Wording of the next sentence does not track. Please revise. --><!--TR: Revised, please review.--></para>

</listitem>

<listitem>

<para>Use the fallback translator.

<classname>SQLExceptionSubclassTranslator</classname> is the

default fallback translator. If this translation is not available

then the next fallback translator is the

<classname>SQLStateSQLExceptionTranslator</classname>.</para>

</listitem>

</orderedlist></para>

<para>You can extend

<classname>SQLErrorCodeSQLExceptionTranslator:</classname></para>

<programlisting language="java">public class CustomSQLErrorCodesTranslator extends SQLErrorCodeSQLExceptionTranslator {

protected DataAccessException customTranslate(String task, String sql, SQLException sqlex) {

if (sqlex.getErrorCode() == -12345) {

return new DeadlockLoserDataAccessException(task, sqlex);

}

return null;

}

}</programlisting>

<para>In this example, the specific error code <literal>-12345</literal>

is translated and other errors are left to be translated by the default

translator implementation. To use this custom translator, it is

necessary to pass it to the <classname>JdbcTemplate</classname> through

the method <literal>setExceptionTranslator</literal> and to use this

<classname>JdbcTemplate</classname> for all of the data access

processing where this translator is needed. Here is an example of how

this custom translator can be used:</para>

<programlisting language="java"><lineannotation>private JdbcTemplate jdbcTemplate;

public void setDataSource(DataSource dataSource) {

// create a <classname>JdbcTemplate</classname> and set data source</lineannotation>

this.jdbcTemplate = new JdbcTemplate();

this.jdbcTemplate.setDataSource(dataSource);

<lineannotation> // create a custom translator and set the <interfacename>DataSource</interfacename> for the default translation lookup</lineannotation>

CustomSQLErrorCodesTranslator tr = new CustomSQLErrorCodesTranslator();

tr.setDataSource(dataSource);

this.jdbcTemplate.setExceptionTranslator(tr);

}

<lineannotation>public void updateShippingCharge(long orderId, long pct) {

// use the <classname>prepared JdbcTemplate</classname> for this <classname>update</classname></lineannotation>

this.jdbcTemplate.update(

"update orders" +

" set shipping_charge = shipping_charge * ? / 100" +

" where id = ?"

pct, orderId);

}</programlisting>

<para>The custom translator is passed a data source in order to look up

the error codes in <literal>sql-error-codes.xml</literal>.</para>

</section>

<section id="jdbc-statements-executing">

<title>Executing statements</title>

<para>Executing an SQL statement requires very little code. You need a

<interfacename>DataSource</interfacename> and a

<classname>JdbcTemplate</classname>, including the convenience

methods<!--Does reader know what you mean by *convenience* methods? TR: OK as is. I hope they know what this is.-->

that are provided with the <classname>JdbcTemplate</classname>. The

following example shows what you need to include for a minimal but fully

functional class that creates a new table:</para>

<programlisting language="java">import javax.sql.DataSource;

import org.springframework.jdbc.core.JdbcTemplate;

public class ExecuteAStatement {

private JdbcTemplate jdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.jdbcTemplate = new JdbcTemplate(dataSource);

}

public void doExecute() {

this.jdbcTemplate.execute("create table mytable (id integer, name varchar(100))");

}

}</programlisting>

</section>

<section id="jdbc-statements-querying">

<title>Running queries</title>

<para>Some query methods return a single value. To retrieve a count or a

specific value from one row, use

<methodname>queryForInt(..)</methodname>,

<methodname>queryForLong(..)</methodname> or

<methodname>queryForObject(..)</methodname>. The latter converts the

returned JDBC <classname>Type</classname> to the Java class that is

passed in as an argument. If the type conversion is invalid, then an

<exceptionname>InvalidDataAccessApiUsageException</exceptionname> is

thrown. Here is an example that contains two query methods, one for an

<classname>int</classname> and one that queries for a

<classname>String</classname>.</para>

<programlisting language="java">import javax.sql.DataSource;

import org.springframework.jdbc.core.JdbcTemplate;

public class RunAQuery {

private JdbcTemplate jdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.jdbcTemplate = new JdbcTemplate(dataSource);

}

public int getCount() {

return this.jdbcTemplate.queryForInt("select count(*) from mytable");

}

public String getName() {

return (String) this.jdbcTemplate.queryForObject("select name from mytable", String.class);

}

public void setDataSource(DataSource dataSource) {

this.dataSource = dataSource;

}

}</programlisting>

<para>In addition to the single result query methods, several methods

return a list with an entry for each row that the query returned. The

most generic method is <methodname>queryForList(..)</methodname> which

returns a <interfacename>List</interfacename> where each entry is a

<interfacename>Map</interfacename> with each entry in the map

representing the column value for that row. If you add a method to the

above example to retrieve a list of all the rows, it would look like

this:</para>

<programlisting language="java">

private JdbcTemplate jdbcTemplate;

public void setDataSource(DataSource dataSource) {

this.jdbcTemplate = new JdbcTemplate(dataSource);

}

public List&lt;Map&lt;String, Object&gt;&gt; getList() {

return this.jdbcTemplate.queryForList("select * from mytable");