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This document is meant as a development/integration guide for anyone wanting to use the new OGNL 2.7 features for doing byte code runtime enhancements on OGNL statements. This is not meant for general user reference as it covers what are mostly internal API development concerns.
By default there isn't much you have to do to use the new compilation abilities in OGNL. Following is an example of compiling a simple property expression and invoking it.
You'll notice that this example references the new
ognl.enhance.ExpressionAccessor class. This is the interface used to create the enhanced expression versions of any given expression via javassist and should be used to set/get expression values from the compiled versions of the code. Although the old
Ognl.getValue(node, context, root) method of getting/setting values will correctly detect a compiled expression and use the accessor directly as well, it's not going to be as fast as you doing it directly.
The core class involved in doing the management of these expression compilations by default is
ognl.enhance.ExpressionCompiler, which implements
ognl.enhance.OgnlExpressionCompiler. Although you can in theory use this default implementation it is not recommended for more robust integration points - such as being incorporated within a web framework. The majority of examples here are going to be based around the strategy that Tapestry has used to integrate these new features.
There are only small handful of classes/services involved in the Tapestry implementation of these features, so hopefully using them as a reference will help anyone trying to get started with this:
ognl.enhance.OgnlExpressionCompiler- which is a subclass of the
ExpressionBindingrepresents the type of bindings for OGNL expressions.
PropertyAccessorclasses Tapestry registers with OGNL. This will be a good reference for the new source code generation methods you will need to implement for your
PropertyAccessorclasses if you want to compile expressions.
If you look at the
ExpressionEvaluator source you'll see a block of initialization where the
OgnlContext pools are setup:
Some things like null handlers/property accessor configuration has been left out but you should have enough there to get a good idea of what is going on. Because creating new OgnlContext objects for every expression evaluation can be needlessly expensive Tapestry uses the Apache commons-pool library to manage pooling of these instances. It is recommended that you do the same where you can. You will also notice in other portions of the source some new method calls made on
The OgnlRuntime class stores static
Map-like instances of reflection meta cache information for all objects evaluated in OGNL expressions. The new
clearCache method clears these caches out as the memory footprint can get quite large after a while. How often/when to call this will largely depend on how your framework works - just keep in mind that calling it too often will have a big impact on runtime performance of your app if you are doing normal application development sort of things with it.
Perhaps the most important class to examine is Tapestrys implementation of
OgnlExpressionCompiler. This class still extends the default
ExpressionCompiler provided by OGNL - but does a few more things that can't be made generic enough to live in the default implementation.
One of these important differences is how Javassist is used to compile the expressions and the ClassLoader/ClassResolver it uses. Because these expressions are being compiled against what are already Javassist enhanced Tapestry component class instances this implementation needed to re-use existing hivemind Javassist services so that these enhanced classes could be correctly resolved while OGNL is evaluating them.
If you don't have a need to provide this kind of classloading functionality you will probably still need to modify at least how the javassist
ClassPool is being managed in your own implementations. The internal functionality of that library is such that the memory consumption of the pool is very large and will get unwieldy especially in development of web apps. Tapestry has a special state that users are used to which is known as "disable caching" - more or less meaning that javassist enhancements happen for every request instead of only once.
Another very important piece of logic that this class handles is the generation of "fail safe" getters/setters when expressions just can't be compiled because of either internal errors or a specific syntax type used isn't yet able to support javassist compilations. This logic can sometimes get tricky in that in many instances OGNL expressions won't be compilable because the full expression contains a null reference. The basic idea is that the compiler keeps trying to compile these kinds of expressions until it either gets a fatal exception thrown or the full expression is able to be resolved. For example, the following expression would throw a
UnsupportedCompilationException if the "user" object returned was null - resulting in no direct compilation being done at all:
That doesn't mean that the user object might not be resolvable the next time this expression is invoked though, so the next time the compiler tries it may succeed in which case the whole expression is enhanced and the new
ExpressionAccessor instance is attached to the root
Node object by calling
The fail safe logic is there for expressions that are likely to never be resolvable for one reason or another. In these instances a
ExpressionAccessor class instance is still created - with the major difference being that instead of pure java object expressions being compiled the get/set methods on the instance just call back to the standard OGNL getValue/setValue methods:
$1, $2 references are Javassist constructs which allow you to specify the first and second argument passed in to the calling method.
As stated previously, this class represents a single OGNL expression in Tapestry when used directly in html templates - such as:
What you will want to examine in this class is how it deals with incrementally attempting expression evaluations using the local members
_writeFailed, _accessor. Looking through the source of this implementation will probably be the best documentation available - but keep in mind that in many instances this object also has to deal with the possibility that a write statement may never happen.
OgnlExpressionCompiler logic this will probably be the second most impactual area people will have to deal with in terms of having to write new code. In this specific instance there are three new
PropertyAccessor methods you must implement in order to compile your expressions:
Although this example may not provide with all of the possible use cases you may need to learn to properly implement these methods in your own
PropertyAccessor implementations - the built in OGNL versions like
ObjectPropertyAccessor, MapPropertyAccessor, ListPropertyAccessor, etc should provide more than enough data to work from. http://svn.opensymphony.com/svn/ognl/trunk/
The most important part of the above logic you will want to look at is in how the new
OgnlContext methods for setting object/accessor types are being set:
This meta information is used by the
OgnlExpressionCompiler to correctly cast your specific expression object types during compilation. This process of casting/converting in to and out of native types is the most complicated part of this new logic and also the source of the greatest number of bugs reported in the OGNL jira. http://jira.opensymphony.com/browse/OGNL
In this property accessor example the goal is to turn general statements like
beans.emailValidator in to their pure source form - which would look something like this when all is said and done:
There is also the ever important cast handling which you must do:
In this example the
PropertyAccessor is trying to determine the class type and manually adding the cast string for the specific type to the overall statement by invoking the utility method
addCastString(OgnlContext, String) on
ExpressionCompiler. In many instances of expression compilation you might also be dealing with unknown method calls, where the more preferred way to do this kind of logic would be something like this: (taken from the OGNL ObjectPropertyAccessor implementation)
When dealing with method calls it is very important that you do this specific kind of type setting on the
OgnlContext class so that the casting done on your statements (which happens outside of the ObjectPropertyAccessor in this instance) can be done on the highest level interface defining that method. This becomes important when you are dealing with expressions that you would like to re-use against different object instances. For example, suppose we had an ognl expression like this (for Tapestry):
and the object it was compiled against was an instance of something looking like this:
BasePage is a Tapestry specific class which is unimportant in this example. What is important to know is that if we had done something like this in the previous context setting example:
It would have resulted in a compiled expression of:
This is undesirable in situations where you would like to re-use OGNL expressions across many different class instances (which is what Tapestry does via the
ExpressionCacheImpl listed above). The better/more re-usable compiled version should really look like:
These are the more delicate parts of the compiler API that the majority of people will need to worry about during any integration efforts.
Ognl.getValue(OgnlContext, Object root, String expressionbut fail completely when they deploy their app to production and the compiler kicks in. If you framework doesn't handle separate modes or have this kind of state set up it is something to keep in mind. The number of JIRA issues reported has gone way down since this all started but they do still trickle in which is enough to know that things aren't yet 100% reliable. I'm sure the plethora of Struts/WebWork/etc users available should be enough to iron out any remaining issues found but it's something to keep in mind.