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iBATIS 3.0 Whiteboard
Added by Clinton Begin, last edited by Clinton Begin on Aug 08, 2009  (view change)


iBATIS 3 has been released!

See the iBATIS Homepage for more: http://ibatis.apache.org

Opportunity for Change.

January 11th, 2008 marks the 4th Anniversary of the iBATIS 2.0. It has served the community well for four years, but times change. The last few years have been full of innovation and shifts in technology and mindset. The impact of frameworks like Ruby on Rails cannot be ignored. The industry has noticed and finally invested in lightweight frameworks, agile principles and simple solutions first.

Luckily, this shift aligns closer toward iBATIS, not further from it.

iBATIS has always been about simplicity. Since the very beginning, with each release of iBATIS we've made the framework smaller and simpler with fewer dependencies. Yet, we've been able to make the framework faster and more powerful every time.

We hope to continue on this promise with iBATIS 3.0. This whiteboard is where it all begins!

How to work with this page.

  • Committers can change the content of this page.
  • Where there is disagreement among committers, all alternatives should be presented until resolved.
  • Anyone in the community can comment on the content using the comment section below.
  • Committers may make changes to the content based on the comments.
  • Comments acted upon may be deleted to keep the comments relevant to the current state.
  • Comments may be archived if they are deemed irrelevant or are declined (avoid deletion).
  • The committers are charged with ensuring the continuity, consistency and focus of the design is managed.
  • Not all comments or suggestions will be accepted.
  • We'll run a tight ship to ensure this page doesn't turn into a zoo.
  • These rules can change.

Themes for iBATIS 3.0

  • Test driven development
  • Code cleanliness over performance
  • Simple design over flexible design
  • One JAR file
  • No required 3rd party dependencies
  • Better plug-in support
  • Third party plug-ins are hosted elsewhere (sub-project on SF or CodePlex) http://sourceforge.net/projects/ibatiscontrib/

The Methodology

  • Clinton says: When I wrote iBATIS 1.0, it was just me. I hacked it out in the most simple and straightforward way possible, with only high level functional tests (actually, they were JPetStore tests). With iBATIS 2.0 I promised myself I'd write unit tests, but I didn't test drive it. The test coverage for 2.0 is around 63%, but looking deeper it's actually not even that good in my own opinion. Therefore, for 3.0 I'd suggest test driving it. The wise man (you) learns from the mistakes of others (me).

Our team is already very good at developing and maintaining the iBATIS codebase. The source code in our repository is always buildable and even deployable. We don't release when it's stable, because it's always stable. We release when we decide we've hit a milestone that together make a compelling feature set for deployment. We're already quite agile.

To ensure that we have clear direction for the development of iBATIS 3.0, here is a summary of our lifecycle.

Practice Agile Concept
Discussion of new feature/issue on the dev and user mailing lists. customer involvement
Creation of JIRA ticket for new feature/issue. user story
Test drive development of new feature/issue. test always
Commit feature/issue with unit test as a single revision. working software
Automated build and test run upon each checkin. continuous integration
Nightly (or more frequent) builds available for download. release often
Release upon milestone defined by useful feature set decided by the team/community. release planning

Design...Feature by Feature

The following sections describe the design of the iBATIS 3.0 features.

Interface Binding

With the introduction of Java 5 we have new opportunities to improve the user experience. The most important being the elimination of ambiguous type casting and string based calls to SQL maps. For example, the current way to call a SQL Map is this:

Employee employee = (Employee)sqlMapper.queryForList("getEmployee", 5);
    List employees = sqlMapper.queryForList("listAllEmployees");

The problems are obvious. First, in both cases the mapped statement names are string based. This is obviously error prone and ugly. There's no hope for help or hints from the IDE, or even compiler warnings or errors.

The second problem is the type safety of the parameters and results. For example, in the first case, who's to say that the parameter is an integer? And who's to say that you're actually going to get an Employee class back. Again, no compiler warnings or errors. Only runtime exceptions will be reported.

And finally, in the case of collections, the problems are the same. You may get a list of Dogs back, instead of Employees, without warning before runtime.

Overall, it's ugly – still better than JDBC – but not as good as it could be.

With Java 5 we can leverage generics to type the collection and therefore for the first time we can create a consistent API for collections without additional configuration. Instead of declaring types in XML and calling statements via loose string names, we can make effective use of a very descriptive and typesafe Interface type. Nothing new to learn, just a normal interface.

public interface EmployeeMapper {
    Employee getEmployee (int employeeId);
    List<Employee> listAllEmployees();

That's it! iBATIS takes care of the implementation of the interface for us.

We can now call mapped statements in a much cleaner and safer way.

Employee emp = empMapper.getEmployee(5);
    List<Employee> employees = empMapper.listAllEmployees();

No casting, no strings, typesafe parameters and results. The extra code incurred on the interface will be made up by far less configuration in the XML or annotations. At most, we'll have the SQL and any result or parameter mappings that need to be overridden.

The interface tells nearly everything we need to know.

  • Name of the "statement" (same as the method name).
  • Parameter types (if any).
  • Result types (including collection element types).

And most interesting (and possibly controversial) of all...

  • We could even generate the SQL based on conventions in the method name. More about that in the Multilevel Configuration section below.

The bound interface approach also makes it easier for frameworks like Spring to inject just a nice clean mapper class, without exposing the full details of the transaction manager etc.

Transactions, Sessions, and Factories – MapperFactory

So where do we get a "Mapper" instance from? We'll still need some sort of central class for iBATIS configuration and control. The name is up for debate, but for now we'll call it MapperFactory.

In general, the MapperFactory is responsible for transactions and mapper instances. The MapperFactory itself will come from some sort of configuration class (again, more about that in the configuration section below).

MapperFactory factory = someConfiguration.buildMapperFactory();
EmployeeMapper employeeMapper = factory.getMapper (EmployeeMapper.class);

I'm not sure that it gets any easier...but that's it. As for transactions...

  • Clinton says: The concept of a session should be merged with that of a transaction. In iBATIS, session and transaction have largely been one and the same. But they were separated for some artificial architectural reason. There are a few things sessions could offer, but for 80% of cases, they don't matter. Similarly batches were separated from transactions, which caused messy nested try/finally blocks. So lets avoid them for now, unless we find a real need for them.

Transactions will be handled either by iBATIS or some 3rd party framework or container. To date they've been handled by a ThreadLocal instance inside a SqlMapClient instance. We get a lot of questions about thread safety due to this approach, so for no technical reason but perhaps a code clarity reason, we could use the following approach:

Transaction tx = factory.startTransaction();
    try {
    // do work
    } finally {

Batches will be handled by simply starting a batched transaction:

Transaction tx = factory.startBatch();
    try {
    // do work
      // balk executes current batch immediately, returns total rows updated
      // (balks on non-batched transactions)
      int totalRowCount = tx.flush();
    // commit executes batch too, returns total rows updated and commits
      totalRowCount = tx.commit();
    } finally {

Similar to the existing transaction API, we'll still support isolation levels and other transaction options.

Transaction tx = factory.startTransaction(isolationLevel);
    try {
    // do work
    } finally {

If a third party is handling transactions, the managed connection can be explicitly passed:

// Can be handled by encapsulating framework (e.g. Spring)
    Transaction tx = factory.useConnection(conn);
    try {
    //...do work...
      tx.flush(); // executes batched updates immediately
      // commit simply calls commit on the connection
      // if local commits are allowed, otherwise it is ignored.
    } finally {
    tx.end(); // Can also be handled by encapsulating framework (e.g. Spring)

Overall this API is cleaner, simpler and is easier to integrate with 3rd party frameworks like Spring. The MapperFactory can be injected into SpringDAOs if access to the transaction manager, batch or isolation levels is needed. To isolate this further, we could separate the transaction manager from the MapperFactory, or even allow the developer to identify their own TransactionManager interface that uses conventions to loosely bind the transaction management methods to their own class (better isolation of the framework).

Multilevel Configuration

By far the most "old-school" aspect of iBATIS of iBATIS is the configuration. When originally built, XML was thought to be a best practice for configuration. Indeed, XML is still a good choice for iBATIS, as it is a great way to code complex multiline SQL. Therefore XML will remain. However, it will not be the default, or even the solution for most cases.

iBATIS 3.0 will use a multilevel configuration approach. That is, there will be a number of ways to configure iBATIS that work together and override each other. The four ways, in order of application, are:

  • Convention
  • Annotation (overrides convention)
  • XML (overrides convention and annotation)
  • Java API (overrides convention, annotation and XML)

Configuration by Convention

  • Clinton says: This is the biggest departure from our former principles. Anyone who knows me knows I'm not a big fan of generation. But if we're to adapt to changing best practices, we must consider simple solutions for even complex applications. Rest assured, that people who don't like convention based configuration will be able to easily ignore it. I believe it will be very useful, especially for inserts, updates and deletes. Some simple queries will be made easier as well.

By default, iBATIS 3.0 will be configured by convention. Java 5 method signatures have enough information to generate the SQL and map all parameters and results. For example:

Employee getEmployee (int id);

This is enough information to generate:

SELECT id, firstName, lastName FROM Employee WHERE id = ?

The result class is equal to the method return type. Because the method result class is not a collection, we know we're dealing with "SELECT one" semantics. The table name is assumed to be the same as the result class. The parameter is assumed to be ID for "SELECT one" methods (only because Java lacks introspection on parameter names...C# can do this). We can override the default ID parameter if we need to using one of the other configuration options (annotation, XML or Java API). The returned columns are assumed to be equal to the class properties but can be overridden too (see "Options" below).

Collections work the same way:

List<Employee> listAllEmployees ();

In this case we generate:

SELECT id, firstName, lastName FROM Employee

We can tell it's a "SELECT many" because the method returns a collection. We know the WHERE clause is empty because there are no parameters.

If we want parameters for a "query by example", we can support something like this:

List<Employee> findEmployeesLike(Employee employee);

Assuming only lastName is set, all other reference types are null, and primitives are set to some invalid number like -1...we can generate something like:

SELECT id, firstName, lastName FROM Employee WHERE lastName = 'Begin'

Or a better convention by naming could be:

List<Employee> findEmployeeByLastNameAndFirstName (String last, String first);

This will yeild:

SELECT id, firstName, lastName FROM Employee WHERE lastName = 'Begin' AND firstName = 'Clinton'

In C# this will be very nice, because C# can introspect on parameter names. It's quite a bit cleaner, but the same idea:

// C#
    IList<Employee> FindEmployeesLike(string lastName, string firstName);
    // And in C# 3.0, we can use anonymous types:
    IList<Employee> FindEmployeesLike(object obj);
    IList<Employee> employees = mapper.FindEmployeesLike(new {LastName="Begin", FirstName="Clinton"});

Updates will work the same way:

void insertEmployee (Employee emp);
    void updateEmployee (Employee emp);
    void deleteEmployee (Employee emp);

We can also accept collections automatically:

int insertEmployee (List<Employee> emps); // returns rows inserted
    int updateEmployee (List<Employee> emps); // returns rows updated
    int deleteEmployee (List<Employee> emps); // returns rows deleted

The generator could be smart enough to code a single statement for mass deletes (and maybe even some updates).


We may be able to support some simple relationships. Simply having a complex property type or collection property type on a class is enough information to identify the relationship. Class definitions are descriptive enough to infer the relationship, even though the reverse is not true (i.e. the data model is not descriptive enough).

Standard SQL? What's that?

We're not going to go crazy with proprietary SQL support. In fact, we're not going to support it at all. We'll support the most standard SQL that works for most databases. This shouldn't be a problem considering the basic queries we're supporting in the convention based generation. Any crazy advanced SQL can be done by hand.

Some Possible Configuration Options

The following are some options we could support for SQL generation.

  • Assume that database follows JavaBean naming convention.
  • Translate JavaBean naming convention to UPPERCASE_UNDERSCORE database convention.
  • Primary key does (NOT) include table name.
  • Use SELECT * and lazy mapping for queries instead eager Class/Table mapping via Database Metadata at startup.
  • Use old WHERE clause join syntax
  • Default relationship loading to use join mapping or lazy loading

Configuration with Annotations

Annotations are becoming more popular and many people are choosing it over XML for metaprogramming. Configuration should not be included in annotations, but much of what iBATIS puts in XML is not configuration.

So what is configuration and what is not? Current iBATIS XML files contain 3 things:

  • Configuration
  • Meta information
  • Code

Configuration is anything that changes when you change environments. For example, database connection information, transaction management etc. In some cases if you're deploying to different databases and use proprietary SQL, then the configuration might include selecting the SQL dialect. We can include such things in iBATIS 3.0, so you can code multiple dialects (by hand of course), give them names and configure it in the appropriate location – outside of your .java files. Configuration should not be in .java files.

Meta information includes things like Result Maps, Parameter Maps and Cache Models. This information changes how iBATIS maps your data and how the mappings behave.

Code includes SQL and the dynamic SQL elemenets.

So what should be in annotations?

For the most part, only meta information should be in annotations. Configuration should be left to properties files or XML. Code should be left to Java code or XML. Furthermore, annotations should probably be used only for simple meta information. Annotations (especially in Java) can become complex, unreadable and messy.

So, I'd recommend using Annotations only as a means to override convention based configuration. That is, use it to tweak the odd SQL statement and the odd Result Map or Parameter Map that needs a column or two remapped.

Once again, C# Attributes will look a lot better than Java Annotations for a few reasons:

  • C# supports multiline strings, which makes inline SQL coding a lot more pleasant.
  • C# supports multiple attributes of the same type. Java requires horrendous collection attributes.
  • C# supports attributes with both ordinal and named parameters, making code much cleaner and more terse.

That said, the following is an example of how some of these annotations might look in Java.

NOTE: You'll notice also that I've included inline result syntax, as well as inline parameters. This topic will be controversial since the syntax for results look more like the old syntax for parameters. Overall though, I think this is a really significant improvement and an important one. Some people may choose to ignore inline parameters or results, or both, but many people will use them exclusively in favour of annotations or XML. Also as a sidenote, parameters will always be named from now on. No more "?" ever. The names can be referenced with "decorator annotations" to change properties of the parameter (e.g. types) etc.

      // Simple select, string concatenation, inline results(!) and inline parameters
    @Select("SELECT #id(EMP_ID:NUMERIC), #firstName(FIRST_NAME:VARCHAR), #lastName(LAST_NAME:VARCHAR) " +
    List<Employee> selectAllEmployees();
      // Alternative syntax using an array of strings instead of string concatenation...can be "smarter" than concatenation
      @Select({"SELECT #id(EMP_ID:NUMERIC), #firstName(FIRST_NAME:VARCHAR), #lastName(LAST_NAME:VARCHAR) ",
    "WHERE EMP_ID = @id"})
    Employee selectEmployee(int id);
      // Inserts look as you might expect.  We can use getGeneratedKeys to get autogen key values, selectkey still supported
    "VALUES (@id, @firstName, @lastName)"})
    void insertEmployee(Employee emp);
      // Nothing special about update
      @Update({"UPDATE EMPLOYEE SET",
    void updateEmployee(Employee emp);
      // Delete is obvious.
      @Delete("DELETE EMPLOYEE WHERE EMP_ID = @id")
    void deleteEmployee(int id);

The following examples are more complicated, almost to the point that this amount of annotation should probably be moved to the XML. I imagine we'll make the annotations full featured, in that anything that can be done in XML will be possible with annotations. However, it will likely be our running recommendation that XML be preferred for complex or even just verbose cases. Some people may choose to ignore the recommendation, and we'll support them in that.

      // complex stuff
    @ResultClass (Company.class)
    @Result(property="id", column="C.COMP_ID"),
    @Result(property="name", column="C.NAME")
    @Result(property="departments.id", column="D.DEPT_ID"),
    @Result(property="departments.name", column="D.NAME"),
    @Result(property="departments.employee.id", column="E.EMP_ID"),
    @Result(property="departments.employee.firstName", column="E.FIRST_NAME"),
    @Result(property="departments.employee.lastName", column="E.LAST_NAME")
    @Collections ({
    @Collection(type=Department.class, property="departments", groupBy="id"),
    @Collection(type=Employee.class, property="departments.employees", groupBy="departments.id")
    @Select("SELECT #id, #name, " +
    "#departments.id, #departments.name, " +
    "#departments.employees.id, #departments.employees.firstName, " +
    "#departments.employees.lastName " +
    List<Company> selectAllCompaniesWithJoin();
    @ResultClass (Company.class)
    @Result(property="id", column="COMP_ID"),
    @Result(property="name", column="NAME")
    nestedQuery=@QueryMethod(type=CompanyMapper.class, methodName="getDepartmentsForCompany", parameters="id"))
    @Select("SELECT #id, #name FROM COMPANY C ")
    List<Company> selectAllCompaniesWithNestedQueries();
    @ResultClass (Department.class)
    @Result(property="id", column="DEPT_ID"),
    @Result(property="name", column="NAME"),
    nestedQuery=@QueryMethod(type=CompanyMapper.class, methodName="getEmployeesForDeparment", parameters="id"))
    @Select("SELECT #id, #name FROM DEPARTMENT WHERE COMP_ID = @id ")
    List<Department> getDepartmentsForCompany(int id);
    @ResultClass (Employee.class)
    @Result(property="id", column="EMP_ID"),
    @Result(property="firstName", column="FIRST_NAME"),
    @Result(property="lastName", column="LAST_NAME")
    @Select("SELECT #id, #firstName, #lastName FROM EMPLOYEE WHERE EMP_ID = @id ")
    List<Employee> getEmployeesForDepartment(int id);

Configuration with XML

XML configuration will be somewhat familiar, however there is a lot of room for improvement. Most notably, we'll support the following:

  • Result and Parameter mappings to fields, constructor parameters and JavaBeans properties.
    • Yet again, C# will rule with regard to constructor parameters, because they can be named. Java will be limited to ordinal constructor parameter mappings.
  • Join mapping and groupBy (N+1 selects solution) can be made much less verbose. We can reduce the need to create sub-resultmaps as well as make the syntax more clearly describe what the intent is (see Collection element below).
  • All Result and Parameter Maps will be "auto-mapped" so only columns that are mismatched against their properties need to be described
    • this dates back to a heated discussion from years back about ignoring missing columns, and/or auto-map extra columns
  • Improved/Simplified typehandler implementation and possibly data type conversion filters
  • The biggest change will be that the XML files will sit beside their Mapper.class counterparts. So EmployeeMapper.xml will be loaded for EmployeeMapper.class in the same classpath by calling something like config.addMapper(EmployeeMapper.class).

Important: People who wish to ignore the new convention and annotation based configuration can do so without missing out on any features. We're not changing the paradigm, we're adding to it. We may even allow people to set their configuration level by specifying "Convention", "Annotation", "XML" or "Java". That is, if they set it to XML, no convention or annotation configuration will be attempted. But even by setting Annotation, XML will still be attempted. So there's definitely a priority order to the configuration levels. Obviously disabling Java API configuration will not be possible.

    <ResultMap id="selectACompanyWithJoin" resultClass="Company">
    <Constructor column="C.COMP_ID"/>
    <Constructor column="C.NAME"/>
    <Property name="departments.id" column="D.DEPT_ID"/>
    <Property name="departments.name" column="D.NAME"/>
    <Property name="departments.employee.id" column="E.EMP_ID"/>
    <Property name="departments.employee.firstName" column="E.FIRST_NAME"/>
    <Property name="departments.employee.lastName" column="E.LAST_NAME"/>
    <Collection type="Department.class" property="departments" groupBy="id"/>
    <Collection type="Employee.class" property="departments.employees" groupBy="departments.id"/>
    <Select id="selectACompanyWithJoin" parameters="id:int,order:string">
    C.COMP_ID = @{id}
    ORDER BY ${order}

You'll notice a number of changes, especially with the select statement itself. The markup has changed to:

* #{column} is an inline result column, optional, and redundant in the above examle -- but
    ultimately should be able to describe most any column mapping situation just like an external
    result map.  Many people won't like this, but it will make others very happy.  Sorry, it will
    be a bit confusing that that # is the token used for results now, rather than parameters, but
    it makes more sense.
    * @{property} is an inline parameter mapping to one of the provided parameters and its
    properties.  Much like inline parameters are today, very little difference other than the more
    common syntax using the @ symbol for parameters.
    * ${property} is an inline substring replacement and is the inspiration for the new syntax and
    does not change at all really.  At most we may introduce simple SQL injection protection,
    possibly optional.

Configuration with Java API

Without going into details, all of the other configuration approaches will make use of a clean, test driven, configuration API that is suitable to release and support as a public API. The entire framework should be configurable from this Java API. In general, it will look something like this:

Reader configFile = Resources.loadAsReader("MapperConfig.xml"); //contains DB connection information etc.
Configuration config = new Configuration(configFile);
config.addMapper (EmployeeMapper.class); // Configures by convention, annotation, and from EmployeeMapper.xml in the same path.
//...more config of statements, result maps, parameter maps and cache contexts....syntax unknown...
MapperFactory factory = config.buildMapperFactory();
EmployeeMapper empMapper = factory.getMapper(EmployeeMapper.class); //generics will allow us to avoid the cast


  • Clinton says: Caching has never been very good in iBATIS...at least not as good as most ORMs, like TopLink and Hibernate. Unfortunately this is the reality with an SQL Mapping approach. Without introducing the concept of object identity and a number of other ORMish qualities, we can't support caching to the same level as the others. I don't believe caching is worth the loss of the core principles that make iBATIS different. So, if iBATIS caching is going to remain fairly basic, it should at least be easy. To date, cache configuration has been more work than it's worth. So, I believe we should make caching dead simple to configure, to achieve 80% of the value with 20% of the code. Any cases that require more advanced caching can write a custom cache above the persistence layer. For what it's worth, caching at the persistence layer is the least effective. Why? Because it's without user context. The best place to cache is at the web tier using a fragment caching approach that can understand more about user interactions and usage patterns that the persistence tier can never understand. In testing done with the Middleware Company years ago, we found business/context aware caches outperformed even the most advanced generic/holistic ORM caches every time.

So how is caching configured now?

As an annotation...

    public class EmployeeMapper {
    void insertEmployee(Employee emp);
    void updateEmployee(Employee emp);
    void deleteEmployee(Employee emp);
    Employee getEmployee(int id);
    List<Employee> findEmployeesLike(Employee emp);

Or in XML...

<Mapper cacheContext="Employee">
    <Insert id="insertEmployee" ...> ... </Insert>
    <Update id="updateEmployee" ...> ... </Update>
    <Delete id="deleteEmployee" ...> ... </Delete>
    <Select id="getEmployee" ...> ... </Select>
    <Select id="findEmployeesLike" ...> ... </Select>

The Cache Context basically links a bunch of mapped statements together. The results of any statements that query for objects and return either collections or single objects will be cached similar to the way they are today – but without the highly verbose configuration. Any mapped statements in the cache context that modify data (insert/update/delete) will flush the cache.

If there's a need to flush on some other statement (like a weird stored proc that updates and queries or something), it can be overridden using a simple annotation.

    List<Employee> updateAndGetSpecialEmployees();

Or XML...

<Select id="findEmployeesLike" flushCache="true"...> ... </Select>

Dynamic SQL

Thanks to Brandon Goodin, iBATIS has one of the most powerful dynamic SQL facilities around. There's nothing else quite like it. And now I'm about to suggest we completely change it.

iBATIS has always been heavily XML based. However, as it turns out, XML sucks for procedural logic. Unfortunately the Dynamic SQL as it is today is procedural logic expressed in XML. In addition to the simple fact that XML sucks at this, there are also a number of syntactic issues with special characters. Normally we handle special characters by simply wrapping the entire statement in a CDATA section. But with Dynamic SQL, we can end up with relevant XML that we need within the CDATA section. This creates a mess of procedural logic, SQL fragments and CDATA sections. While still better than a lot of alternatives, it's simply not the best we can do.

As I said before, I consider the Dynamic SQL facility to be "code" (as opposed to configuration or meta information). Code should be in a general purpose programming language like Java. So, what I will suggest is that we rebuild the Dynamic SQL facility as a really nice Java API that is every bit as good as the Dynamic SQL facility. This API can be use inside very simple Dynamic SQL Source classes.

Now that everyone is confused, let's use an example:

<select id="dynamicGetAccountList" parameterClass="Account" resultMap="account-result" >
    select * from ACCOUNT
    <dynamic prepend="WHERE">
    <isNotNull prepend="AND" property="FirstName">
    ( ACC_FIRST_NAME = #FirstName#
    <isNotNull prepend="OR" property="LastName">
    ACC_LAST_NAME = #LastName#
    <isNotNull prepend="AND" property="EmailAddress">
    ACC_EMAIL like #EmailAddress#
    <isGreaterThan prepend="AND" property="Id" compareValue="0">
    ACC_ID = #Id#
    order by ACC_LAST_NAME
// Warning: This is not well thought out.  There's a lot we can do with
    // anonymous inner classes, class initializers, generics and chained APIs (JMock)
    // or even scripting languages.  This is simply for the sake of argument.
    public class GetAccountListSQL extends SQLSource {
    public String getSQL(Object param) {
    Account acct = (Account) param;  // Generics might help eliminate this
        append("select * from ACCOUNT");
    prepend("WHERE"); //prepends before next append
        if (exists(acct.getEmailAddress())) {
    append("AND", "ACC_EMAIL like #EmailAddress#"); // append with prepend, first will be overridden
    if (greaterThan(0,acct.getID())) {
    append("AND", "ACC_ID = #ID#");
    prepend(); //clear prepend if any
        append ("order by ACCT_LAST_NAME");

This SQLSource can then be used with an annotation:

List<Accout> getAccountList(Account acct);

Or through XML:

<Select id="getAccountList" source="org.apache.GetAccountListSQL" ...> ... </Select>

I think this approach is much cleaner and keeps code where code should be. It also makes it possible to easily introduce new types of SQLSources so that SQL can be generated by scripting languages or (if anyone is really tied to it) even XML...

XML Parameters and Results

We will continue to support primitives, POJOs, JavaBeans and Map types for parameters and results. XML support will also still exist, but will change dramatically. Instead of being supported as a first class type, we'll support it as a higher level type for all object types.

I was thinking of something as simple as introducing a standard iBATIS utility for serializing primitives, POJOs, JavaBeans and Maps. Or we could just tell people to use something like XStream.

Here's a ridiculously short example that should get the point accross.

return As.XML(empMapper.getEmployee(As.Integer("<value>5</value>")));

Hopefully you get the idea...basically XML is a higher level transformation to and from any object type. The benefit is that if you want an XML interface on top of your existing mapped statements, you don't have to remap them all to xml types...

Features Recommended for Exclusion from iBATIS 3.0

  • DAO (deprecated in 2.x)
  • PaginatedList (deprecated in 2.x)
  • NullValue (reason: it's ugly, confusing and pointless)
  • MaxSessions, MaxTransactions, MaxRequests (sessions and requests themselves may not exist in the new design, and TX configuration is the container's job)


It's way too early for a timeline. The best we can do is guess at how long it will be before we have a Beta quality release. Perhaps below each committer can give a gut check:

Clinton: 6 - 12 months
Larry: 12-18 months

ibatis 3.0 (iBATIS DataMapper)
JPA (iBATIS DataMapper)

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