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See:
Description
Interface Summary | |
---|---|
ELContextListener | The listener interface for receiving notification when an
ELContext is created. |
Class Summary | |
---|---|
ArrayELResolver | Defines property resolution behavior on arrays. |
BeanELResolver | Defines property resolution behavior on objects using the JavaBeans component architecture. |
BeanELResolver.BeanProperties | |
BeanELResolver.BeanProperty | |
CompositeELResolver | Maintains an ordered composite list of child ELResolver s. |
ELContext | Context information for expression evaluation. |
ELContextEvent | An event which indicates that an ELContext has been created. |
ELResolver | Enables customization of variable, property and method call resolution behavior for EL expression evaluation. |
Expression | Base class for the expression subclasses ValueExpression and
MethodExpression , implementing characterstics common to both. |
ExpressionFactory | |
FunctionMapper | The interface to a map between EL function names and methods. |
ListELResolver | Defines property resolution behavior on instances of List . |
MapELResolver | Defines property resolution behavior on instances of Map . |
MethodExpression | An Expression that refers to a method on an object. |
MethodInfo | Holds information about a method that a MethodExpression
evaluated to. |
ResourceBundleELResolver | Defines property resolution behavior on instances of
ResourceBundle . |
ValueExpression | An Expression that can get or set a value. |
ValueReference | This encapsulates a base model object and one of its properties. |
VariableMapper | The interface to a map between EL variables and the EL expressions they are associated with. |
Exception Summary | |
---|---|
ELException | Represents any of the exception conditions that can arise during expression evaluation. |
MethodNotFoundException | Thrown when a method could not be found while evaluating a
MethodExpression . |
PropertyNotFoundException | Thrown when a property could not be found while evaluating a
ValueExpression or MethodExpression . |
PropertyNotWritableException | Thrown when a property could not be written to while setting the
value on a ValueExpression . |
Provides the API for the Unified Expression Language 2.2 used by the JSP 2.2 and JSF 2.0 technologies.
The Expression Language (EL) is a simple language designed to satisfy the specific needs of web application developers. It is currently defined in its own specification document within the JavaServer Pages (tm) (JSP) 2.2 specification, but does not have any dependencies on any portion of the JSP 2.2 specification. It is intended for general use outside of the JSP and JSF specifications as well.
This package contains the classes and interfaces that describe and define the programmatic access to the Expression Language engine. The API is logically partitioned as follows:
An important goal of the EL is to ensure it can be used in a variety of environments. It must therefore provide enough flexibility to adapt to the specific requirements of the environment where it is being used.
Class ELContext
is what links
the EL with the specific environment where it is being used.
It provides
the mechanism through which all relevant context for creating or
evaluating an expression is specified.
Creation of ELContext
objects is controlled through
the underlying technology. For example, in JSP, the
JspContext.getELContext()
factory method is used.
Some technologies provide the ability to add an ELContextListener
so that applications and frameworks can ensure their own context objects
are attached to any newly created ELContext
.
At the core of the Expression Language is the notion of an expression that gets parsed according to the grammar defined by the Expression Language.
There are two types of expressions defined by the EL: value expressions
and method expressions. A ValueExpression
such as
"${customer.name}"
can be used either
as an rvalue (return the value associated with property name
of the model object customer
) or as an lvalue
(set the value of the property name
of the model object
customer
).
A MethodExpression
such as
"${handler.process}"
makes it possible to invoke a method
(process
) on a specific model object (handler
).
In version 2.2, either type of EL expression can represent a method
invocation, such as ${trader.buy("JAVA")}
, where the arugments to
the mothod invocation are specified in the expression.
All expression classes extend the base class Expression
, making them
serializable and forcing them to implement equals()
and
hashCode()
. Morevover, each method on these expression classes
that actually evaluates an expression receives a parameter
of class ELContext
,
which provides the context required to evaluate the expression.
An expression is created through the ExpressionFactory
class.
The factory provides two creation methods; one for each type of expression
supported by the EL.
To create an expression, one must provide an ELContext
,
a string representing
the expression, and the expected type (ValueExpression
) or signature
(MethodExpression
).
The ELContext
provides the context necessary to parse an expression.
Specifically, if the expression uses an EL function
(for example ${fn:toUpperCase(customer.name)}
) or an
EL variable, then
FunctionMapper
and VariableMapper
objects must be available within the ELContext
so that EL functions and
EL variables are properly mapped.
Through the ELResolver
base class, the EL
features a pluggable mechanism
to resolve model object references as well as properties of these objects.
The EL API provides implementations of ELResolver
supporting
property resolution for common data types which include
arrays (ArrayELResolver
), JavaBeans (BeanELResolver
), List
s (ListELResolver
),
Map
s (MapELResolver
), and ResourceBundle
s (ResourceBundleELResolver
).
Tools can easily obtain more information about resolvable model objects and their
resolvable properties by calling
method getFeatureDescriptors
on the ELResolver
. This method exposes objects
of type java.beans.FeatureDescriptor
, providing all information of interest
on top-level model objects as well as their properties.
If an EL expression uses a function
(for example ${fn:toUpperCase(customer.name)}
), then a
FunctionMapper
object must also be specified within the ELContext
.
The FunctionMapper
is responsible to map
${prefix:name()}
style functions to
static methods that can execute the specified functions.
Just like FunctionMapper
provides
a flexible mechanism to add functions to the EL, VariableMapper
provides a flexible mechanism to support the notion of
EL variables.
An EL variable does not directly refer to a model object that can then
be resolved by an ELResolver
. Instead, it refers to an EL
expression. The evaluation of that EL expression gives the EL variable
its value.
For example, in the following code snippet
<h:inputText value="#{handler.customer.name}"/>
handler
refers to a model object that can be resolved by an EL Resolver.
However, in this other example:
<c:forEach var="item" items="#{model.list}"> <h:inputText value="#{item.name}"/> </c:forEach>
item
is an EL variable because it does not refer directly to a model
object. Instead, it refers to another EL expression, namely a
specific item in the collection referred to by the EL expression
#{model.list}.
Assuming that there are three elements in ${model.list}
, this means
that for
each invocation of <h:inputText>
, the following information
about item
must be preserved in the VariableMapper
:
first invocation: item
maps to first element in ${model.list}
second invocation: item
maps to second element in ${model.list}
third invocation: item
maps to third element in ${model.list}
VariableMapper
provides the mechanisms required to allow the mapping
of an EL variable to the EL expression from which it gets its value.
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