trait Mirrors extends AnyRef
EXPERIMENTAL
This trait provides support for Mirrors in the Scala Reflection API.
Mirrors are a central part of Scala Reflection. All information provided by
reflection is made accessible through Mirrors. Depending on the type of information
to be obtained, or the reflective action to be taken, different flavors of mirrors
must be used. "Classloader" mirrors can be used to obtain representations of types
and members. From a classloader Mirror, it's possible to obtain more specialized
"invoker" Mirrors (the most commonly-used mirrors), which implement reflective
invocations, such as method/constructor calls and field accesses.
The two flavors of mirrors:
- “Classloader” mirrors. These mirrors translate names to symbols
(via methods
staticClass/staticModule/staticPackage). - "Invoker” mirrors. These mirrors implement reflective invocations
(via methods
MethodMirror.apply,FieldMirror.get, etc). These "invoker" mirrors are the types of mirrors that are most commonly used.
Compile-time Mirrors
Compile-time Mirrors make use of only classloader Mirrors to load Symbols
by name.
The entry point to classloader Mirrors is via scala.reflect.macros.blackbox.Context#mirror or scala.reflect.macros.whitebox.Context#mirror.
Typical methods which use classloader Mirrors include scala.reflect.api.Mirror#staticClass,
scala.reflect.api.Mirror#staticModule, and scala.reflect.api.Mirror#staticPackage. For
example:
import scala.reflect.macros.blackbox.Context case class Location(filename: String, line: Int, column: Int) object Macros { def currentLocation: Location = macro impl def impl(c: Context): c.Expr[Location] = { import c.universe._ val pos = c.macroApplication.pos val clsLocation = c.mirror.staticModule("Location") // get symbol of "Location" object c.Expr(Apply(Ident(clsLocation), List(Literal(Constant(pos.source.path)), Literal(Constant(pos.line)), Literal(Constant(pos.column))))) } }
Of Note: There are several high-level alternatives that one can use to avoid having to manually
lookup symbols. For example, typeOf[Location.type].termSymbol (or typeOf[Location].typeSymbol
if we needed a ClassSymbol), which are type safe since we don’t have to use Strings to lookup
the Symbol.
Runtime Mirrors
Runtime Mirrors make use of both classloader and invoker Mirrors.
The entry point to Mirrors for use at runtime is via ru.runtimeMirror(<classloader>), where
ru is scala.reflect.runtime.universe.
The result of a scala.reflect.api.JavaUniverse#runtimeMirror call is a classloader mirror, of type scala.reflect.api.Mirrors#ReflectiveMirror, which can load symbols by names as discussed above (in the “Compile-time” section).
A classloader mirror can create invoker mirrors, which include: scala.reflect.api.Mirrors#InstanceMirror, scala.reflect.api.Mirrors#MethodMirror, scala.reflect.api.Mirrors#FieldMirror, scala.reflect.api.Mirrors#ClassMirror and scala.reflect.api.Mirrors#ModuleMirror.
Examples of how these two types of Mirrors interact are available below.
Types of Mirrors, Their Use Cases & Examples
scala.reflect.api.Mirrors#ReflectiveMirror. Used for loading Symbols by name, and
as an entry point into invoker mirrors. Entry point: val m = ru.runtimeMirror(<classloader>).
Example:
scala> val ru = scala.reflect.runtime.universe ru: scala.reflect.api.JavaUniverse = ... scala> val m = ru.runtimeMirror(getClass.getClassLoader) m: reflect.runtime.universe.Mirror = JavaMirror ...
scala.reflect.api.Mirrors#InstanceMirror. Used for creating invoker Mirrors for methods
and fields and for inner classes and inner objects (modules). Entry point: val im = m.reflect(<value>).
Example:
scala> class C { def x = 2 } defined class C scala> val im = m.reflect(new C) im: reflect.runtime.universe.InstanceMirror = instance mirror for C@3442299e
scala.reflect.api.Mirrors#MethodMirror. Used for invoking instance methods (Scala only has
instance methods-- methods of objects are instance methods of object instances, obtainable
via ModuleMirror.instance). Entry point: val mm = im.reflectMethod(<method symbol>).
Example:
scala> val methodX = typeOf[C].declaration(TermName("x")).asMethod methodX: reflect.runtime.universe.MethodSymbol = method x scala> val mm = im.reflectMethod(methodX) mm: reflect.runtime.universe.MethodMirror = method mirror for C.x: scala.Int (bound to C@3442299e) scala> mm() res0: Any = 2
scala.reflect.api.Mirrors#FieldMirror. Used for getting/setting instance fields
(Scala only has instance fields-- fields of objects are instance methods of object instances
obtainable via ModuleMirror.instance). Entry point:
val fm = im.reflectMethod(<field or accessor symbol>).
Example:
scala> class C { val x = 2; val y = 3 } defined class C scala> val m = ru.runtimeMirror(getClass.getClassLoader) m: reflect.runtime.universe.Mirror = JavaMirror ... scala> val im = m.reflect(new C) im: reflect.runtime.universe.InstanceMirror = instance mirror for C@5f0c8ac1 scala> val fieldX = typeOf[C].declaration(TermName("x")).asTerm.accessed.asTerm fieldX: reflect.runtime.universe.TermSymbol = value x scala> val fmX = im.reflectField(fieldX) fmX: reflect.runtime.universe.FieldMirror = field mirror for C.x (bound to C@5f0c8ac1) scala> fmX.get res0: Any = 2 scala> fmX.set(3) // NOTE: can set an underlying value of an immutable field! scala> val fieldY = typeOf[C].declaration(TermName("y")).asTerm.accessed.asTerm fieldY: reflect.runtime.universe.TermSymbol = variable y scala> val fmY = im.reflectField(fieldY) fmY: reflect.runtime.universe.FieldMirror = field mirror for C.y (bound to C@5f0c8ac1) scala> fmY.get res1: Any = 3 scala> fmY.set(4) scala> fmY.get res2: Any = 4
scala.reflect.api.Mirrors#ClassMirror. Used for creating invoker mirrors for constructors.
Entry points: for static classes val cm1 = m.reflectClass(<class symbol>),
for inner classes val mm2 = im.reflectClass(<class symbol>).
Example:
scala> case class C(x: Int) defined class C scala> val m = ru.runtimeMirror(getClass.getClassLoader) m: reflect.runtime.universe.Mirror = JavaMirror ... scala> val classC = typeOf[C].typeSymbol.asClass classC: reflect.runtime.universe.Symbol = class C scala> val cm = m.reflectClass(classC) cm: reflect.runtime.universe.ClassMirror = class mirror for C (bound to null) scala> val ctorC = typeOf[C].declaration(ru.nme.CONSTRUCTOR).asMethod ctorC: reflect.runtime.universe.MethodSymbol = constructor C scala> val ctorm = cm.reflectConstructor(ctorC) ctorm: reflect.runtime.universe.MethodMirror = constructor mirror for C.<init>(x: scala.Int): C (bound to null) scala> ctorm(2) res0: Any = C(2)
scala.reflect.api.Mirrors#ModuleMirror. Used for getting singleton instances of objects.
Entry points: for static objects (modules) val mm1 = m.reflectModule(<module symbol>),
for inner objects (modules) val mm2 = im.reflectModule(<module symbol>).
Example:
scala> object C { def x = 2 } defined module C scala> val m = ru.runtimeMirror(getClass.getClassLoader) m: reflect.runtime.universe.Mirror = JavaMirror ... scala> val objectC = typeOf[C.type].termSymbol.asModule objectC: reflect.runtime.universe.ModuleSymbol = object C scala> val mm = m.reflectModule(objectC) mm: reflect.runtime.universe.ModuleMirror = module mirror for C (bound to null) scala> val obj = mm.instance obj: Any = C$@1005ec04
For more information about Mirrorss, see the
Reflection Guide: Mirrors
- Self Type
- Universe
- Source
- Mirrors.scala
- Grouped
- Alphabetic
- By Inheritance
- Mirrors
- AnyRef
- Any
- by any2stringadd
- by StringFormat
- by Ensuring
- by ArrowAssoc
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- Public
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Type Members
-
trait
ClassMirror
extends Universe.TemplateMirror
A mirror that reflects the instance parts of a runtime class.
A mirror that reflects the instance parts of a runtime class. See the overview page for details on how to use runtime reflection.
-
trait
FieldMirror
extends AnyRef
A mirror that reflects a field.
A mirror that reflects a field. See the overview page for details on how to use runtime reflection.
-
trait
InstanceMirror
extends AnyRef
A mirror that reflects a runtime value.
A mirror that reflects a runtime value. See the overview page for details on how to use runtime reflection.
-
trait
MethodMirror
extends AnyRef
A mirror that reflects a method.
A mirror that reflects a method. See the overview page for details on how to use runtime reflection.
-
abstract
type
Mirror >: Null <: api.Mirror[Mirrors.this.type]
The base type of all mirrors of this universe.
The base type of all mirrors of this universe.
This abstract type conforms the base interface for all mirrors defined in scala.reflect.api.Mirror and is gradually refined in specific universes (e.g.
Mirrorof a scala.reflect.api.JavaUniverse is capable of reflection). -
trait
ModuleMirror
extends Universe.TemplateMirror
A mirror that reflects a Scala object definition or the static parts of a runtime class.
A mirror that reflects a Scala object definition or the static parts of a runtime class. See the overview page for details on how to use runtime reflection.
-
trait
ReflectiveMirror
extends api.Mirror[Mirrors.this.type]
A mirror that reflects instances and static classes.
A mirror that reflects instances and static classes. See the overview page for details on how to use runtime reflection.
-
abstract
type
RuntimeClass >: Null <: AnyRef
Abstracts the runtime representation of a class on the underlying platform.
-
trait
RuntimeClassApi
extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
RuntimeClass. -
trait
RuntimeMirror
extends api.Mirror[Mirrors.this.type] with Universe.ReflectiveMirror
The API of a mirror for a reflective universe.
The API of a mirror for a reflective universe. See the overview page for details on how to use runtime reflection.
-
trait
TemplateMirror
extends AnyRef
A mirror that reflects the instance or static parts of a runtime class.
A mirror that reflects the instance or static parts of a runtime class. See the overview page for details on how to use runtime reflection.
Abstract Value Members
-
abstract
val
rootMirror: Universe.Mirror
The root mirror of this universe.
The root mirror of this universe. This mirror contains standard Scala classes and types such as
Any,AnyRef,AnyVal,Nothing,Null, and all classes loaded from scala-library, which are shared across all mirrors within the enclosing universe.
Concrete Value Members
-
final
def
!=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
final
def
##(): Int
- Definition Classes
- AnyRef → Any
- def +(other: String): String
- def ->[B](y: B): (Mirrors, B)
-
final
def
==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
final
def
asInstanceOf[T0]: T0
- Definition Classes
- Any
-
def
clone(): AnyRef
- Attributes
- protected[java.lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
- def ensuring(cond: (Mirrors) ⇒ Boolean, msg: ⇒ Any): Mirrors
- def ensuring(cond: (Mirrors) ⇒ Boolean): Mirrors
- def ensuring(cond: Boolean, msg: ⇒ Any): Mirrors
- def ensuring(cond: Boolean): Mirrors
-
final
def
eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
def
equals(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
def
finalize(): Unit
- Attributes
- protected[java.lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( classOf[java.lang.Throwable] )
- def formatted(fmtstr: String): String
-
final
def
getClass(): Class[_]
- Definition Classes
- AnyRef → Any
-
def
hashCode(): Int
- Definition Classes
- AnyRef → Any
-
final
def
isInstanceOf[T0]: Boolean
- Definition Classes
- Any
-
final
def
ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
final
def
notify(): Unit
- Definition Classes
- AnyRef
-
final
def
notifyAll(): Unit
- Definition Classes
- AnyRef
-
final
def
synchronized[T0](arg0: ⇒ T0): T0
- Definition Classes
- AnyRef
-
def
toString(): String
- Definition Classes
- AnyRef → Any
-
final
def
wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
-
final
def
wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
-
final
def
wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
- def →[B](y: B): (Mirrors, B)
Inherited from AnyRef
Inherited from Any
Mirrors
API
The methods available for each reflection entity, without the implementation. Since the reflection entities are later overridden by runtime reflection and macros, their API counterparts guarantee a minimum set of methods that are implemented.