public abstract class ExpressionFactory extends Object
Classes that implement the EL expression language expose their functionality via this abstract class. An implementation supports the following functionalities.
String
into a ValueExpression
or
MethodExpression
instance for later evaluation.
ELResolver
for query operatorsThe newInstance()
method can be used to obtain an
instance of the implementation.
Technologies such as
JavaServer Pages and JavaServer Faces provide access to an
implementation via factory methods.
The createValueExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>)
method is used to parse expressions
that evaluate to values (both l-values and r-values are supported).
The createMethodExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>, java.lang.Class<?>[])
method is used to parse expressions
that evaluate to a reference to a method on an object.
Resolution of model objects is performed at evaluation time, via the
ELResolver
associated with the ELContext
passed to
the ValueExpression
or MethodExpression
.
The ELContext object also provides access to the FunctionMapper
and VariableMapper
to be used when parsing the expression.
EL function and variable mapping is performed at parse-time, and
the results are
bound to the expression. Therefore, the ELContext
,
FunctionMapper
,
and VariableMapper
are not stored for future use and do not have to be
Serializable
.
The createValueExpression
and
createMethodExpression
methods must be thread-safe. That is,
multiple threads may call these methods on the same
ExpressionFactory
object simultaneously. Implementations
should synchronize access if they depend on transient state.
Implementations should not, however, assume that only one object of
each ExpressionFactory
type will be instantiated; global
caching should therefore be static.
The ExpressionFactory
must be able to handle the following
types of input for the expression
parameter:
${}
delimiter
(e.g. "${employee.lastName}"
).#{}
delimiter
(e.g. "#{employee.lastName}"
).${}
or #{}
delimiters (e.g. "John Doe"
)."${employee.firstName}${employee.lastName}"
or
"#{employee.firstName}#{employee.lastName}"
)."Name: ${employee.firstName} ${employee.lastName}"
).The following types of input are illegal and must cause an
ELException
to be thrown:
"${employee.firstName}#{employee.lastName}"
)."Name: ${employee.firstName} #{employee.lastName}"
).Constructor and Description |
---|
ExpressionFactory() |
Modifier and Type | Method and Description |
---|---|
abstract Object |
coerceToType(Object obj,
Class<?> targetType)
Coerces an object to a specific type according to the
EL type conversion rules.
|
abstract MethodExpression |
createMethodExpression(ELContext context,
String expression,
Class<?> expectedReturnType,
Class<?>[] expectedParamTypes)
Parses an expression into a
MethodExpression for later
evaluation. |
abstract ValueExpression |
createValueExpression(ELContext context,
String expression,
Class<?> expectedType)
Parses an expression into a
ValueExpression for later
evaluation. |
abstract ValueExpression |
createValueExpression(Object instance,
Class<?> expectedType)
Creates a ValueExpression that wraps an object instance.
|
Map<String,Method> |
getInitFunctionMap()
Retrieve a function map containing a pre-configured function
mapping.
|
ELResolver |
getStreamELResolver()
Retrieves an ELResolver that implements the operations in collections.
|
static ExpressionFactory |
newInstance()
Creates a new instance of a
ExpressionFactory . |
static ExpressionFactory |
newInstance(Properties properties)
Create a new instance of a
ExpressionFactory , with
optional properties. |
public static ExpressionFactory newInstance()
ExpressionFactory
.
This method uses the following ordered lookup procedure to determine
the ExpressionFactory
implementation class to load:
META-INF/services/javax.el.ExpressionFactory
exists,
then its first line, if present, is used as the UTF-8 encoded name of
the implementation class. java.util.Properties.load(InputStream)
method,
and it contains an entry whose key is "javax.el.ExpressionFactory",
then the value of that entry is used as the name of the
implementation class.javax.el.ExpressionFactory
system property.
If a system property with this name is defined, then its value is
used as the name of the implementation class.public static ExpressionFactory newInstance(Properties properties)
Create a new instance of a ExpressionFactory
, with
optional properties.
This method uses the same lookup procedure as the one used in
newInstance()
.
If the argument properties
is not null, and if the
implementation contains a constructor with a single parameter of
type java.util.Properties
, then the constructor is used
to create the instance.
Properties are optional and can be ignored by an implementation.
The name of a property should start with "javax.el."
The following are some suggested names for properties.
properties
- Properties passed to the implementation.
If null, then no properties.public abstract ValueExpression createValueExpression(ELContext context, String expression, Class<?> expectedType)
ValueExpression
for later
evaluation. Use this method for expressions that refer to values.
This method should perform syntactic validation of the expression.
If in doing so it detects errors, it should raise an
ELException
.
context
- The EL context used to parse the expression.
The FunctionMapper
and VariableMapper
stored in the ELContext
are used to resolve functions and variables found in
the expression. They can be null
, in which case
functions or variables are not supported for this expression.
The object
returned must invoke the same functions and access the same
variable mappings
regardless of whether
the mappings in the provided FunctionMapper
and VariableMapper
instances
change between calling
ExpressionFactory.createValueExpression()
and any
method on ValueExpression
.
Note that within the EL, the ${} and #{} syntaxes are treated identically. This includes the use of VariableMapper and FunctionMapper at expression creation time. Each is invoked if not null, independent of whether the #{} or ${} syntax is used for the expression.
expression
- The expression to parseexpectedType
- The type the result of the expression
will be coerced to after evaluation.NullPointerException
- Thrown if expectedType is null.ELException
- Thrown if there are syntactical errors in the
provided expression.public abstract ValueExpression createValueExpression(Object instance, Class<?> expectedType)
getValue()
method, optionally coerced.instance
- The object instance to be wrapped.expectedType
- The type the result of the expression
will be coerced to after evaluation. There will be no
coercion if it is Object.class,NullPointerException
- Thrown if expectedType is null.public abstract MethodExpression createMethodExpression(ELContext context, String expression, Class<?> expectedReturnType, Class<?>[] expectedParamTypes)
MethodExpression
for later
evaluation. Use this method for expressions that refer to methods.
If the expression is a String literal, a MethodExpression
is created, which when invoked, returns the String literal,
coerced to expectedReturnType. An ELException is thrown if
expectedReturnType is void or if the coercion of the String literal
to the expectedReturnType yields an error (see Section "1.16 Type
Conversion").
This method should perform syntactic validation of the expression.
If in doing so it detects errors, it should raise an
ELException
.
context
- The EL context used to parse the expression.
The FunctionMapper
and VariableMapper
stored in the ELContext
are used to resolve functions and variables found in
the expression. They can be null
, in which
case functions or variables are not supported for this expression.
The object
returned must invoke the same functions and access the same variable
mappings
regardless of whether
the mappings in the provided FunctionMapper
and VariableMapper
instances
change between calling
ExpressionFactory.createMethodExpression()
and any
method on MethodExpression
.
Note that within the EL, the ${} and #{} syntaxes are treated identically. This includes the use of VariableMapper and FunctionMapper at expression creation time. Each is invoked if not null, independent of whether the #{} or ${} syntax is used for the expression.
expression
- The expression to parseexpectedReturnType
- The expected return type for the method
to be found. After evaluating the expression, the
MethodExpression
must check that the return type of
the actual method matches this type. Passing in a value of
null
indicates the caller does not care what the
return type is, and the check is disabled.expectedParamTypes
- The expected parameter types for the method to
be found. Must be an array with no elements if there are
no parameters expected. It is illegal to pass null
,
unless the method is specified with arugments in the EL
expression, in which case these arguments are used for method
selection, and this parameter is ignored.ELException
- Thrown if there are syntactical errors in the
provided expression.NullPointerException
- if paramTypes is null
.public abstract Object coerceToType(Object obj, Class<?> targetType)
ELResolver
s are not considered.
An ELException
is thrown if an error results from
applying the conversion rules.
obj
- The object to coerce.targetType
- The target type for the coercion.ELException
- thrown if an error results from applying the
conversion rules.public ELResolver getStreamELResolver()
This ELResolver resolves the method invocation on the pair
(base
, property
) when base
is
a Collection
or a Map
, and
property
is the name of the operation.
See EL.2 for detailed descriptions of these operators, their arguments, and return values.
ELResolver
that implements the Query Operators.Copyright © 1996-2017, Oracle and/or its affiliates. All Rights Reserved. Use is subject to license terms.