public class LambdaMetafactory extends Object
Methods to facilitate the creation of simple "function objects" that
implement one or more interfaces by delegation to a provided MethodHandle
,
possibly after type adaptation and partial evaluation of arguments. These
methods are typically used as bootstrap methods for invokedynamic
call sites, to support the lambda expression and method
reference expression features of the Java Programming Language.
Indirect access to the behavior specified by the provided MethodHandle
proceeds in order through three phases:
CallSite
whose target can be used to create suitable function
objects. Linkage may involve dynamically loading a new class that
implements the target interface. The CallSite
can be considered a
"factory" for function objects and so these linkage methods are referred
to as "metafactories".CallSite
's target is
invoked, typically through an invokedynamic
call site,
producing a function object. This may occur many times for
a single factory CallSite
. Capture may involve allocation of a
new function object, or may return an existing function object. The
behavior MethodHandle
may have additional parameters beyond those
of the specified interface method; these are referred to as captured
parameters, which must be provided as arguments to the
CallSite
target, and which may be early-bound to the behavior
MethodHandle
. The number of captured parameters and their types
are determined during linkage.MethodHandle
is invoked with the captured arguments and any additional arguments
provided on invocation, as if by MethodHandle.invoke(Object...)
.It is sometimes useful to restrict the set of inputs or results permitted
at invocation. For example, when the generic interface Predicate<T>
is parameterized as Predicate<String>
, the input must be a
String
, even though the method to implement allows any Object
.
At linkage time, an additional MethodType
parameter describes the
"instantiated" method type; on invocation, the arguments and eventual result
are checked against this MethodType
.
This class provides two forms of linkage methods: a standard version
(metafactory(MethodHandles.Lookup, String, MethodType, MethodType, MethodHandle, MethodType)
)
using an optimized protocol, and an alternate version
altMetafactory(MethodHandles.Lookup, String, MethodType, Object...)
).
The alternate version is a generalization of the standard version, providing
additional control over the behavior of the generated function objects via
flags and additional arguments. The alternate version adds the ability to
manage the following attributes of function objects:
FLAG_BRIDGES
indicates that a list of additional
MethodType
s will be provided, each of which will be implemented
by the resulting function object. These methods will share the same
name and instantiated type.FLAG_MARKERS
indicates that a list of additional interfaces will be provided, each of
which should be implemented by the resulting function object.FLAG_SERIALIZABLE
can be used to indicate that the function objects should be serializable.
Serializable function objects will use, as their serialized form,
instances of the class SerializedLambda
, which requires additional
assistance from the capturing class (the class described by the
MethodHandles.Lookup
parameter caller
); see
SerializedLambda
for details.Assume the linkage arguments are as follows:
invokedType
(describing the CallSite
signature) has
K parameters of types (D1..Dk) and return type Rd;samMethodType
(describing the implemented method type) has N
parameters, of types (U1..Un) and return type Ru;implMethod
(the MethodHandle
providing the
implementation has M parameters, of types (A1..Am) and return type Ra
(if the method describes an instance method, the method type of this
method handle already includes an extra first argument corresponding to
the receiver);instantiatedMethodType
(allowing restrictions on invocation)
has N parameters, of types (T1..Tn) and return type Rt.Then the following linkage invariants must hold:
implMethod
is a direct method handlesamMethodType
and instantiatedMethodType
have the same
arity N, and for i=1..N, Ti and Ui are the same type, or Ti and Ui are
both reference types and Ti is a subtype of UiFurther, at capture time, if implMethod
corresponds to an instance
method, and there are any capture arguments (K > 0
), then the first
capture argument (corresponding to the receiver) must be non-null.
A type Q is considered adaptable to S as follows:
Q | S | Link-time checks | Invocation-time checks |
---|---|---|---|
Primitive | Primitive | Q can be converted to S via a primitive widening conversion | None |
Primitive | Reference | S is a supertype of the Wrapper(Q) | Cast from Wrapper(Q) to S |
Reference | Primitive | for parameter types: Q is a primitive wrapper and Primitive(Q)
can be widened to S
for return types: If Q is a primitive wrapper, check that Primitive(Q) can be widened to S |
If Q is not a primitive wrapper, cast Q to the base Wrapper(S); for example Number for numeric types |
Reference | Reference | for parameter types: S is a supertype of Q
for return types: none |
Cast from Q to S |
The argument list of the implementation method and the argument list of the interface method(s) may differ in several ways. The implementation methods may have additional arguments to accommodate arguments captured by the lambda expression; there may also be differences resulting from permitted adaptations of arguments, such as casting, boxing, unboxing, and primitive widening. (Varargs adaptations are not handled by the metafactories; these are expected to be handled by the caller.)
Invokedynamic call sites have two argument lists: a static argument list and a dynamic argument list. The static argument list is stored in the constant pool; the dynamic argument is pushed on the operand stack at capture time. The bootstrap method has access to the entire static argument list (which in this case, includes information describing the implementation method, the target interface, and the target interface method(s)), as well as a method signature describing the number and static types (but not the values) of the dynamic arguments and the static return type of the invokedynamic site.
Modifier and Type | Field and Description |
---|---|
static int |
FLAG_BRIDGES
Flag for alternate metafactories indicating the lambda object requires
additional bridge methods
|
static int |
FLAG_MARKERS
Flag for alternate metafactories indicating the lambda object implements
other marker interfaces
besides Serializable
|
static int |
FLAG_SERIALIZABLE
Flag for alternate metafactories indicating the lambda object
must be serializable
|
Constructor and Description |
---|
LambdaMetafactory() |
Modifier and Type | Method and Description |
---|---|
static CallSite |
altMetafactory(MethodHandles.Lookup caller,
String invokedName,
MethodType invokedType,
Object... args)
Facilitates the creation of simple "function objects" that implement one
or more interfaces by delegation to a provided
MethodHandle ,
after appropriate type adaptation and partial evaluation of arguments. |
static CallSite |
metafactory(MethodHandles.Lookup caller,
String invokedName,
MethodType invokedType,
MethodType samMethodType,
MethodHandle implMethod,
MethodType instantiatedMethodType)
Facilitates the creation of simple "function objects" that implement one
or more interfaces by delegation to a provided
MethodHandle ,
after appropriate type adaptation and partial evaluation of arguments. |
public static final int FLAG_SERIALIZABLE
public static final int FLAG_MARKERS
public static final int FLAG_BRIDGES
public static CallSite metafactory(MethodHandles.Lookup caller, String invokedName, MethodType invokedType, MethodType samMethodType, MethodHandle implMethod, MethodType instantiatedMethodType) throws LambdaConversionException
MethodHandle
,
after appropriate type adaptation and partial evaluation of arguments.
Typically used as a bootstrap method for invokedynamic
call sites, to support the lambda expression and method
reference expression features of the Java Programming Language.
This is the standard, streamlined metafactory; additional flexibility
is provided by altMetafactory(MethodHandles.Lookup, String, MethodType, Object...)
.
A general description of the behavior of this method is provided
above
.
When the target of the CallSite
returned from this method is
invoked, the resulting function objects are instances of a class which
implements the interface named by the return type of invokedType
,
declares a method with the name given by invokedName
and the
signature given by samMethodType
. It may also override additional
methods from Object
.
caller
- Represents a lookup context with the accessibility
privileges of the caller. When used with invokedynamic
,
this is stacked automatically by the VM.invokedName
- The name of the method to implement. When used with
invokedynamic
, this is provided by the
NameAndType
of the InvokeDynamic
structure and is stacked automatically by the VM.invokedType
- The expected signature of the CallSite
. The
parameter types represent the types of capture variables;
the return type is the interface to implement. When
used with invokedynamic
, this is provided by
the NameAndType
of the InvokeDynamic
structure and is stacked automatically by the VM.
In the event that the implementation method is an
instance method and this signature has any parameters,
the first parameter in the invocation signature must
correspond to the receiver.samMethodType
- Signature and return type of method to be implemented
by the function object.implMethod
- A direct method handle describing the implementation
method which should be called (with suitable adaptation
of argument types, return types, and with captured
arguments prepended to the invocation arguments) at
invocation time.instantiatedMethodType
- The signature and return type that should
be enforced dynamically at invocation time.
This may be the same as samMethodType
,
or may be a specialization of it.invokedType
LambdaConversionException
- If any of the linkage invariants
described above
are violatedpublic static CallSite altMetafactory(MethodHandles.Lookup caller, String invokedName, MethodType invokedType, Object... args) throws LambdaConversionException
MethodHandle
,
after appropriate type adaptation and partial evaluation of arguments.
Typically used as a bootstrap method for invokedynamic
call sites, to support the lambda expression and method
reference expression features of the Java Programming Language.
This is the general, more flexible metafactory; a streamlined version
is provided by metafactory(java.lang.invoke.MethodHandles.Lookup,
String, MethodType, MethodType, MethodHandle, MethodType)
.
A general description of the behavior of this method is provided
above
.
The argument list for this method includes three fixed parameters,
corresponding to the parameters automatically stacked by the VM for the
bootstrap method in an invokedynamic
invocation, and an Object[]
parameter that contains additional parameters. The declared argument
list for this method is:
CallSite altMetafactory(MethodHandles.Lookup caller,
String invokedName,
MethodType invokedType,
Object... args)
but it behaves as if the argument list is as follows:
CallSite altMetafactory(MethodHandles.Lookup caller,
String invokedName,
MethodType invokedType,
MethodType samMethodType,
MethodHandle implMethod,
MethodType instantiatedMethodType,
int flags,
int markerInterfaceCount, // IF flags has MARKERS set
Class... markerInterfaces, // IF flags has MARKERS set
int bridgeCount, // IF flags has BRIDGES set
MethodType... bridges // IF flags has BRIDGES set
)
Arguments that appear in the argument list for
metafactory(MethodHandles.Lookup, String, MethodType, MethodType, MethodHandle, MethodType)
have the same specification as in that method. The additional arguments
are interpreted as follows:
flags
indicates additional options; this is a bitwise
OR of desired flags. Defined flags are FLAG_BRIDGES
,
FLAG_MARKERS
, and FLAG_SERIALIZABLE
.markerInterfaceCount
is the number of additional interfaces
the function object should implement, and is present if and only if the
FLAG_MARKERS
flag is set.markerInterfaces
is a variable-length list of additional
interfaces to implement, whose length equals markerInterfaceCount
,
and is present if and only if the FLAG_MARKERS
flag is set.bridgeCount
is the number of additional method signatures
the function object should implement, and is present if and only if
the FLAG_BRIDGES
flag is set.bridges
is a variable-length list of additional
methods signatures to implement, whose length equals bridgeCount
,
and is present if and only if the FLAG_BRIDGES
flag is set.Each class named by markerInterfaces
is subject to the same
restrictions as Rd
, the return type of invokedType
,
as described above
. Each MethodType
named by bridges
is subject to the same restrictions as
samMethodType
, as described above
.
When FLAG_SERIALIZABLE is set in flags
, the function objects
will implement Serializable
, and will have a writeReplace
method that returns an appropriate SerializedLambda
. The
caller
class must have an appropriate $deserializeLambda$
method, as described in SerializedLambda
.
When the target of the CallSite
returned from this method is
invoked, the resulting function objects are instances of a class with
the following properties:
invokedType
and any interfaces named by markerInterfaces
invokedName
,
and the signature given by samMethodType
and additional signatures
given by bridges
Object
, and may
implement methods related to serialization.caller
- Represents a lookup context with the accessibility
privileges of the caller. When used with invokedynamic
,
this is stacked automatically by the VM.invokedName
- The name of the method to implement. When used with
invokedynamic
, this is provided by the
NameAndType
of the InvokeDynamic
structure and is stacked automatically by the VM.invokedType
- The expected signature of the CallSite
. The
parameter types represent the types of capture variables;
the return type is the interface to implement. When
used with invokedynamic
, this is provided by
the NameAndType
of the InvokeDynamic
structure and is stacked automatically by the VM.
In the event that the implementation method is an
instance method and this signature has any parameters,
the first parameter in the invocation signature must
correspond to the receiver.args
- An Object[]
array containing the required
arguments samMethodType
, implMethod
,
instantiatedMethodType
, flags
, and any
optional arguments, as described
altMetafactory(MethodHandles.Lookup, String, MethodType, Object...)
above}invokedType
LambdaConversionException
- If any of the linkage invariants
described above
are violated Submit a bug or feature
For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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