abstract class Universe extends api.Universe
EXPERIMENTAL
The refinement of scala.reflect.api.Universe for the use by macro writers.
This universe provides mutability for reflection artifacts (e.g. macros can change types of compiler trees,
add annotation to symbols representing definitions, etc) and exposes some internal compiler functionality
such as Symbol.deSkolemize
or Tree.attachments
.
- Source
- Universe.scala
- Grouped
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- By Inheritance
- Universe
- Universe
- Internals
- Quasiquotes
- Liftables
- Printers
- Mirrors
- StandardLiftables
- StandardNames
- StandardDefinitions
- ImplicitTags
- TypeTags
- Exprs
- Positions
- Annotations
- Constants
- Trees
- Names
- Scopes
- FlagSets
- Types
- Symbols
- AnyRef
- Any
- by any2stringadd
- by StringFormat
- by Ensuring
- by ArrowAssoc
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- Public
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Instance Constructors
- new Universe()
Type Members
- abstract type Annotation >: Null <: Universe.AnnotationApi
Information about an annotation.
Information about an annotation.
- Definition Classes
- Annotations
- trait AnnotationApi extends AnyRef
The API of
Annotation
instances.The API of
Annotation
instances. The main source of information about annotations is the scala.reflect.api.Annotations page.- Definition Classes
- Annotations
- abstract class AnnotationExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Annotation(tpe, scalaArgs, javaArgs)
.An extractor class to create and pattern match with syntax
Annotation(tpe, scalaArgs, javaArgs)
. Here,tpe
is the annotation type,scalaArgs
the payload of Scala annotations, andjavaArgs
the payload of Java annotations.- Definition Classes
- Annotations
- abstract type Constant >: Null <: Universe.ConstantApi
This "virtual" case class represents the reflection interface for literal expressions which can not be further broken down or evaluated, such as "true", "0", "classOf[List]".
This "virtual" case class represents the reflection interface for literal expressions which can not be further broken down or evaluated, such as "true", "0", "classOf[List]". Such values become parts of the Scala abstract syntax tree representing the program. The constants correspond to section 6.24 "Constant Expressions" of the Scala Language Specification.
Such constants are used to represent literals in abstract syntax trees (the scala.reflect.api.Trees#Literal node) and literal arguments for Java class file annotations (the scala.reflect.api.Annotations#LiteralArgument class).
Constants can be matched against and can be constructed directly, as if they were case classes:
assert(Constant(true).value == true) Constant(true) match { case Constant(s: String) => println("A string: " + s) case Constant(b: Boolean) => println("A boolean value: " + b) case Constant(x) => println("Something else: " + x) }
Constant
instances can wrap certain kinds of these expressions:- Literals of primitive value classes (
Byte
,Short
,Int
,Long
,Float
,Double
,Char
,Boolean
andUnit
) - represented directly as the corresponding type - String literals - represented as instances of the
String
. - References to classes, typically constructed with scala.Predef#classOf - represented as types.
- References to enumeration values - represented as symbols.
Class references are represented as instances of scala.reflect.api.Types#Type (because when the Scala compiler processes a class reference, the underlying runtime class might not yet have been compiled). To convert such a reference to a runtime class, one should use the
runtimeClass
method of a mirror such asRuntimeMirror
(the simplest way to get such a mirror is usingscala.reflect.runtime.currentMirror
).Enumeration value references are represented as instances of scala.reflect.api.Symbols#Symbol, which on JVM point to methods that return underlying enum values. To inspect an underlying enumeration or to get runtime value of a reference to an enum, one should use a scala.reflect.api.Mirrors#RuntimeMirror (the simplest way to get such a mirror is again scala.reflect.runtime.package#currentMirror).
Usage example:
enum JavaSimpleEnumeration { FOO, BAR } import java.lang.annotation.*; @Retention(RetentionPolicy.RUNTIME) @Target({ElementType.TYPE}) public @interface JavaSimpleAnnotation { Class<?> classRef(); JavaSimpleEnumeration enumRef(); } @JavaSimpleAnnotation( classRef = JavaAnnottee.class, enumRef = JavaSimpleEnumeration.BAR ) public class JavaAnnottee {}
import scala.reflect.runtime.universe._ import scala.reflect.runtime.{currentMirror => cm} object Test extends App { val jann = typeOf[JavaAnnottee].typeSymbol.annotations(0).javaArgs def jarg(name: String) = jann(TermName(name)) match { // Constant is always wrapped into a Literal or LiteralArgument tree node case LiteralArgument(ct: Constant) => value } val classRef = jarg("classRef").value.asInstanceOf[Type] // ideally one should match instead of casting println(showRaw(classRef)) // TypeRef(ThisType(<empty>), JavaAnnottee, List()) println(cm.runtimeClass(classRef)) // class JavaAnnottee val enumRef = jarg("enumRef").value.asInstanceOf[Symbol] // ideally one should match instead of casting println(enumRef) // value BAR val siblings = enumRef.owner.info.decls val enumValues = siblings.filter(sym => sym.isVal && sym.isPublic) println(enumValues) // Scope{ // final val FOO: JavaSimpleEnumeration; // final val BAR: JavaSimpleEnumeration // } // doesn't work because of https://github.com/scala/bug/issues/6459 // val enumValue = mirror.reflectField(enumRef.asTerm).get val enumClass = cm.runtimeClass(enumRef.owner.asClass) val enumValue = enumClass.getDeclaredField(enumRef.name.toString).get(null) println(enumValue) // BAR }
- Definition Classes
- Constants
- Literals of primitive value classes (
- abstract class ConstantApi extends AnyRef
The API of Constant instances.
- abstract class ConstantExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Constant(value)
wherevalue
is the Scala value of the constant.An extractor class to create and pattern match with syntax
Constant(value)
wherevalue
is the Scala value of the constant.- Definition Classes
- Constants
- trait Expr[+T] extends Equals with Serializable
Expr wraps an abstract syntax tree and tags it with its type.
Expr wraps an abstract syntax tree and tags it with its type. The main source of information about exprs is the scala.reflect.api.Exprs page.
- Definition Classes
- Exprs
- trait FlagOps extends Any
The API of
FlagSet
instances.The API of
FlagSet
instances. The main source of information about flag sets is the scala.reflect.api.FlagSets page.- Definition Classes
- FlagSets
- abstract type FlagSet
An abstract type representing sets of flags (like private, final, etc.) that apply to definition trees and symbols
An abstract type representing sets of flags (like private, final, etc.) that apply to definition trees and symbols
- Definition Classes
- FlagSets
- trait FlagValues extends AnyRef
All possible values that can constitute flag sets.
All possible values that can constitute flag sets. The main source of information about flag sets is the scala.reflect.api.FlagSets page.
- Definition Classes
- FlagSets
- abstract type FreeTermSymbol >: Null <: Universe.FreeTermSymbolApi with Universe.TermSymbol
The type of free terms introduced by reification.
The type of free terms introduced by reification.
- Definition Classes
- Internals
- trait FreeTermSymbolApi extends Universe.TermSymbolApi
The API of free term symbols.
- abstract type FreeTypeSymbol >: Null <: Universe.FreeTypeSymbolApi with Universe.TypeSymbol
The type of free types introduced by reification.
The type of free types introduced by reification.
- Definition Classes
- Internals
- trait FreeTypeSymbolApi extends Universe.TypeSymbolApi
The API of free type symbols.
- trait Importer extends AnyRef
This trait provides support for importers, a facility to migrate reflection artifacts between universes.
This trait provides support for importers, a facility to migrate reflection artifacts between universes. Note: this trait should typically be used only rarely.
Reflection artifacts, such as Symbols and Types, are contained in Universes. Typically all processing happens within a single
Universe
(e.g. a compile-time macroUniverse
or a runtime reflectionUniverse
), but sometimes there is a need to migrate artifacts from oneUniverse
to another. For example, runtime compilation works by importing runtime reflection trees into a runtime compiler universe, compiling the importees and exporting the result back.Reflection artifacts are firmly grounded in their
Universe
s, which is reflected by the fact that types of artifacts from different universes are not compatible. By usingImporter
s, however, they be imported from one universe into another. For example, to importfoo.bar.Baz
from the sourceUniverse
to the targetUniverse
, an importer will first check whether the entire owner chain exists in the targetUniverse
. If it does, then nothing else will be done. Otherwise, the importer will recreate the entire owner chain and will import the corresponding type signatures into the targetUniverse
.Since importers match
Symbol
tables of the source and the targetUniverse
s using plain string names, it is programmer's responsibility to make sure that imports don't distort semantics, e.g., thatfoo.bar.Baz
in the sourceUniverse
means the same thatfoo.bar.Baz
does in the targetUniverse
.Example
Here's how one might implement a macro that performs compile-time evaluation of its argument by using a runtime compiler to compile and evaluate a tree that belongs to a compile-time compiler:
def staticEval[T](x: T) = macro staticEval[T] def staticEval[T](c: scala.reflect.macros.blackbox.Context)(x: c.Expr[T]) = { // creates a runtime reflection universe to host runtime compilation import scala.reflect.runtime.{universe => ru} val mirror = ru.runtimeMirror(c.libraryClassLoader) import scala.tools.reflect.ToolBox val toolBox = mirror.mkToolBox() // runtime reflection universe and compile-time macro universe are different // therefore an importer is needed to bridge them // currently mkImporter requires a cast to correctly assign the path-dependent types val importer0 = ru.internal.mkImporter(c.universe) val importer = importer0.asInstanceOf[ru.internal.Importer { val from: c.universe.type }] // the created importer is used to turn a compiler tree into a runtime compiler tree // both compilers use the same classpath, so semantics remains intact val imported = importer.importTree(tree) // after the tree is imported, it can be evaluated as usual val tree = toolBox.untypecheck(imported.duplicate) val valueOfX = toolBox.eval(imported).asInstanceOf[T] ... }
- Definition Classes
- Internals
- trait InternalApi extends AnyRef
Reflection API exhibits a tension inherent to experimental things: on the one hand we want it to grow into a beautiful and robust API, but on the other hand we have to deal with immaturity of underlying mechanisms by providing not very pretty solutions to enable important use cases.
Reflection API exhibits a tension inherent to experimental things: on the one hand we want it to grow into a beautiful and robust API, but on the other hand we have to deal with immaturity of underlying mechanisms by providing not very pretty solutions to enable important use cases.
In Scala 2.10, which was our first stab at reflection API, we didn't have a systematic approach to dealing with this tension, sometimes exposing too much of internals (e.g. Symbol.deSkolemize) and sometimes exposing too little (e.g. there's still no facility to change owners, to do typing transformations, etc). This resulted in certain confusion with some internal APIs living among public ones, scaring the newcomers, and some internal APIs only available via casting, which requires intimate knowledge of the compiler and breaks compatibility guarantees.
This led to creation of the
internal
API module for the reflection API, which provides advanced APIs necessary for macros that push boundaries of the state of the art, clearly demarcating them from the more or less straightforward rest and providing compatibility guarantees on par with the rest of the reflection API (full compatibility within minor releases, best effort towards backward compatibility within major releases, clear replacement path in case of rare incompatible changes in major releases).The
internal
module itself (the value that implements InternalApi) isn't defined here, in scala.reflect.api.Universe, but is provided on per-implementation basis. Runtime API endpoint (scala.reflect.runtime.universe) providesuniverse.compat: InternalApi
, whereas compile-time API endpoints (instances of scala.reflect.macros.Context) providec.compat: ContextInternalApi
, which extendsInternalApi
with additional universe-specific and context-specific functionality.- Definition Classes
- Internals
- abstract type ReferenceToBoxed >: Null <: Universe.ReferenceToBoxedApi with Universe.TermTree
Marks underlying reference to id as boxed.
Marks underlying reference to id as boxed.
Precondition:<\b> id must refer to a captured variable A reference such marked will refer to the boxed entity, no dereferencing with `.elem` is done on it. This tree node can be emitted by macros such as reify that call referenceCapturedVariable. It is eliminated in LambdaLift, where the boxing conversion takes place.
- Definition Classes
- Internals
- trait ReferenceToBoxedApi extends Universe.TermTreeApi
The API that all references support
The API that all references support
- Definition Classes
- Internals
- abstract class ReferenceToBoxedExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ReferenceToBoxed(ident)
.An extractor class to create and pattern match with syntax
ReferenceToBoxed(ident)
. This AST node does not have direct correspondence to Scala code, and is emitted by macros to reference capture vars directly without going throughelem
.For example:
var x = ... fun { x }
Will emit:
Ident(x)
Which gets transformed to:
Select(Ident(x), "elem")
If
ReferenceToBoxed
were used instead of Ident, no transformation would be performed.- Definition Classes
- Internals
- trait ReificationSupportApi extends AnyRef
This is an internal implementation class.
This is an internal implementation class.
- Definition Classes
- Internals
- trait Liftable[T] extends AnyRef
A type class that defines a representation of
T
as aTree
.A type class that defines a representation of
T
as aTree
.- Definition Classes
- Liftables
- See also
http://docs.scala-lang.org/overviews/quasiquotes/lifting.html
- trait Unliftable[T] extends AnyRef
A type class that defines a way to extract instance of
T
from aTree
.A type class that defines a way to extract instance of
T
from aTree
.- Definition Classes
- Liftables
- See also
http://docs.scala-lang.org/overviews/quasiquotes/unlifting.html
- 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.
- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- trait RuntimeClassApi extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
RuntimeClass
.- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- 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.
- Definition Classes
- Mirrors
- abstract class NameApi extends AnyRef
The API of Name instances.
The API of Name instances.
- Definition Classes
- Names
- trait TermNameApi extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
TermName
.- Definition Classes
- Names
- abstract class TermNameExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TermName(s)
.An extractor class to create and pattern match with syntax
TermName(s)
.- Definition Classes
- Names
- trait TypeNameApi extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
TypeName
.- Definition Classes
- Names
- abstract class TypeNameExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeName(s)
.An extractor class to create and pattern match with syntax
TypeName(s)
.- Definition Classes
- Names
- case class BooleanFlag(value: Option[Boolean]) extends Product with Serializable
- Definition Classes
- Printers
- trait TreePrinter extends AnyRef
- Attributes
- protected
- Definition Classes
- Printers
- implicit class Quasiquote extends AnyRef
Implicit class that introduces
q
,tq
,cq,
pq
andfq
string interpolators that are also known as quasiquotes.Implicit class that introduces
q
,tq
,cq,
pq
andfq
string interpolators that are also known as quasiquotes. With their help you can easily manipulate Scala reflection ASTs.- Definition Classes
- Quasiquotes
- See also
- abstract type MemberScope >: Null <: Universe.MemberScopeApi with Universe.Scope
The type of member scopes, as in class definitions, for example.
The type of member scopes, as in class definitions, for example.
- Definition Classes
- Scopes
- trait MemberScopeApi extends Universe.ScopeApi
The API that all member scopes support
The API that all member scopes support
- Definition Classes
- Scopes
- abstract type Scope >: Null <: Universe.ScopeApi
The base type of all scopes.
The base type of all scopes.
- Definition Classes
- Scopes
- trait ScopeApi extends Iterable[Universe.Symbol]
The API that all scopes support
The API that all scopes support
- Definition Classes
- Scopes
- trait DefinitionsApi extends Universe.StandardTypes
Defines standard symbols (and types via its base trait).
Defines standard symbols (and types via its base trait).
- Definition Classes
- StandardDefinitions
- trait StandardTypes extends AnyRef
Defines standard types.
Defines standard types.
- Definition Classes
- StandardDefinitions
- trait StandardLiftableInstances extends AnyRef
- Definition Classes
- StandardLiftables
- trait StandardUnliftableInstances extends AnyRef
- Definition Classes
- StandardLiftables
- trait NamesApi extends AnyRef
Defines standard names, common for term and type names: These can be accessed via the nme and tpnme members.
Defines standard names, common for term and type names: These can be accessed via the nme and tpnme members.
- Definition Classes
- StandardNames
- trait TermNamesApi extends Universe.NamesApi
Defines standard term names that can be accessed via the nme member.
Defines standard term names that can be accessed via the nme member.
- Definition Classes
- StandardNames
- trait TypeNamesApi extends Universe.NamesApi
Defines standard type names that can be accessed via the tpnme member.
Defines standard type names that can be accessed via the tpnme member.
- Definition Classes
- StandardNames
- abstract type ClassSymbol >: Null <: Universe.ClassSymbolApi with Universe.TypeSymbol
The type of class symbols representing class and trait definitions.
The type of class symbols representing class and trait definitions.
- Definition Classes
- Symbols
- trait ClassSymbolApi extends Universe.TypeSymbolApi
The API of class symbols.
The API of class symbols. The main source of information about symbols is the Symbols page.
Class Symbol defines
isXXX
test methods such asisPublic
orisFinal
,params
andreturnType
methods for method symbols,baseClasses
for class symbols and so on. Some of these methods don't make sense for certain subclasses ofSymbol
and returnNoSymbol
,Nil
or other empty values.- Definition Classes
- Symbols
- abstract type MethodSymbol >: Null <: Universe.MethodSymbolApi with Universe.TermSymbol
The type of method symbols representing def declarations.
The type of method symbols representing def declarations.
- Definition Classes
- Symbols
- trait MethodSymbolApi extends Universe.TermSymbolApi
The API of method symbols.
The API of method symbols. The main source of information about symbols is the Symbols page.
Class Symbol defines
isXXX
test methods such asisPublic
orisFinal
,params
andreturnType
methods for method symbols,baseClasses
for class symbols and so on. Some of these methods don't make sense for certain subclasses ofSymbol
and returnNoSymbol
,Nil
or other empty values.- Definition Classes
- Symbols
- abstract type ModuleSymbol >: Null <: Universe.ModuleSymbolApi with Universe.TermSymbol
The type of module symbols representing object declarations.
The type of module symbols representing object declarations.
- Definition Classes
- Symbols
- trait ModuleSymbolApi extends Universe.TermSymbolApi
The API of module symbols.
The API of module symbols. The main source of information about symbols is the Symbols page.
Class Symbol defines
isXXX
test methods such asisPublic
orisFinal
,params
andreturnType
methods for method symbols,baseClasses
for class symbols and so on. Some of these methods don't make sense for certain subclasses ofSymbol
and returnNoSymbol
,Nil
or other empty values.- Definition Classes
- Symbols
- abstract type Symbol >: Null <: Universe.SymbolApi
The type of symbols representing declarations.
The type of symbols representing declarations.
- Definition Classes
- Symbols
- trait SymbolApi extends AnyRef
The API of symbols.
The API of symbols. The main source of information about symbols is the Symbols page.
Class Symbol defines
isXXX
test methods such asisPublic
orisFinal
,params
andreturnType
methods for method symbols,baseClasses
for class symbols and so on. Some of these methods don't make sense for certain subclasses ofSymbol
and returnNoSymbol
,Nil
or other empty values.- Definition Classes
- Symbols
- abstract type TermSymbol >: Null <: Universe.TermSymbolApi with Universe.Symbol
The type of term symbols representing val, var, def, and object declarations as well as packages and value parameters.
The type of term symbols representing val, var, def, and object declarations as well as packages and value parameters.
- Definition Classes
- Symbols
- trait TermSymbolApi extends Universe.SymbolApi
The API of term symbols.
The API of term symbols. The main source of information about symbols is the Symbols page.
Class Symbol defines
isXXX
test methods such asisPublic
orisFinal
,params
andreturnType
methods for method symbols,baseClasses
for class symbols and so on. Some of these methods don't make sense for certain subclasses ofSymbol
and returnNoSymbol
,Nil
or other empty values.- Definition Classes
- Symbols
- abstract type TypeSymbol >: Null <: Universe.TypeSymbolApi with Universe.Symbol
The type of type symbols representing type, class, and trait declarations, as well as type parameters.
The type of type symbols representing type, class, and trait declarations, as well as type parameters.
- Definition Classes
- Symbols
- trait TypeSymbolApi extends Universe.SymbolApi
The API of type symbols.
The API of type symbols. The main source of information about symbols is the Symbols page.
Class Symbol defines
isXXX
test methods such asisPublic
orisFinal
,params
andreturnType
methods for method symbols,baseClasses
for class symbols and so on. Some of these methods don't make sense for certain subclasses ofSymbol
and returnNoSymbol
,Nil
or other empty values.- Definition Classes
- Symbols
- abstract type Alternative >: Null <: Universe.AlternativeApi with Universe.TermTree
Alternatives of patterns.
Alternatives of patterns.
Eliminated by compiler phases Eliminated by compiler phases patmat (in the new pattern matcher of 2.10) or explicitouter (in the old pre-2.10 pattern matcher), except for occurrences in encoded Switch stmt (i.e. remaining Match(CaseDef(...)))
- Definition Classes
- Trees
- trait AlternativeApi extends Universe.TermTreeApi
The API that all alternatives support
The API that all alternatives support
- Definition Classes
- Trees
- abstract class AlternativeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Alternative(trees)
.An extractor class to create and pattern match with syntax
Alternative(trees)
. This AST node corresponds to the following Scala code:pat1 | ... | patn
- Definition Classes
- Trees
- abstract type Annotated >: Null <: Universe.AnnotatedApi with Universe.Tree
A tree that has an annotation attached to it.
A tree that has an annotation attached to it. Only used for annotated types and annotation ascriptions, annotations on definitions are stored in the Modifiers. Eliminated by typechecker (typedAnnotated), the annotations are then stored in an AnnotatedType.
- Definition Classes
- Trees
- trait AnnotatedApi extends Universe.TreeApi
The API that all annotateds support
The API that all annotateds support
- Definition Classes
- Trees
- abstract class AnnotatedExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Annotated(annot, arg)
.An extractor class to create and pattern match with syntax
Annotated(annot, arg)
. This AST node corresponds to the following Scala code:arg @annot // for types arg: @annot // for exprs
- Definition Classes
- Trees
- abstract type AppliedTypeTree >: Null <: Universe.AppliedTypeTreeApi with Universe.TypTree
Applied type <tpt> [ <args> ], eliminated by RefCheck
Applied type <tpt> [ <args> ], eliminated by RefCheck
- Definition Classes
- Trees
- trait AppliedTypeTreeApi extends Universe.TypTreeApi
The API that all applied type trees support
The API that all applied type trees support
- Definition Classes
- Trees
- abstract class AppliedTypeTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
AppliedTypeTree(tpt, args)
.An extractor class to create and pattern match with syntax
AppliedTypeTree(tpt, args)
. This AST node corresponds to the following Scala code:tpt[args]
Should only be used with
tpt
nodes which are types, i.e. which haveisType
returningtrue
. OtherwiseTypeApply
should be used instead.List[Int] as in
val x: List[Int] = ???
// represented as AppliedTypeTree(Ident(<List>), List(TypeTree(<Int>)))def foo[T] = ??? foo[Int] // represented as TypeApply(Ident(<foo>), List(TypeTree(<Int>)))
- Definition Classes
- Trees
- abstract type Apply >: Null <: Universe.ApplyApi with Universe.GenericApply
Value application
Value application
- Definition Classes
- Trees
- trait ApplyApi extends Universe.GenericApplyApi
The API that all applies support
The API that all applies support
- Definition Classes
- Trees
- abstract class ApplyExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Apply(fun, args)
.An extractor class to create and pattern match with syntax
Apply(fun, args)
. This AST node corresponds to the following Scala code:fun(args)
For instance:
fun[targs](args)
Is expressed as:
Apply(TypeApply(fun, targs), args)
- Definition Classes
- Trees
- abstract type Assign >: Null <: Universe.AssignApi with Universe.TermTree
Assignment
Assignment
- Definition Classes
- Trees
- trait AssignApi extends Universe.TermTreeApi
The API that all assigns support
The API that all assigns support
- Definition Classes
- Trees
- abstract class AssignExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Assign(lhs, rhs)
.An extractor class to create and pattern match with syntax
Assign(lhs, rhs)
. This AST node corresponds to the following Scala code:lhs = rhs
- Definition Classes
- Trees
- abstract type Bind >: Null <: Universe.BindApi with Universe.DefTree
Bind a variable to a rhs pattern.
Bind a variable to a rhs pattern.
Eliminated by compiler phases patmat (in the new pattern matcher of 2.10) or explicitouter (in the old pre-2.10 pattern matcher).
- Definition Classes
- Trees
- trait BindApi extends Universe.DefTreeApi
The API that all binds support
The API that all binds support
- Definition Classes
- Trees
- abstract class BindExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Bind(name, body)
.An extractor class to create and pattern match with syntax
Bind(name, body)
. This AST node corresponds to the following Scala code:pat*
- Definition Classes
- Trees
- abstract type Block >: Null <: Universe.BlockApi with Universe.TermTree
Block of expressions (semicolon separated expressions)
Block of expressions (semicolon separated expressions)
- Definition Classes
- Trees
- trait BlockApi extends Universe.TermTreeApi
The API that all blocks support
The API that all blocks support
- Definition Classes
- Trees
- abstract class BlockExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Block(stats, expr)
.An extractor class to create and pattern match with syntax
Block(stats, expr)
. This AST node corresponds to the following Scala code:{ stats; expr }
If the block is empty, the
expr
is set toLiteral(Constant(()))
.- Definition Classes
- Trees
- abstract type CaseDef >: Null <: Universe.CaseDefApi with Universe.Tree
Case clause in a pattern match.
Case clause in a pattern match. (except for occurrences in switch statements). Eliminated by compiler phases patmat (in the new pattern matcher of 2.10) or explicitouter (in the old pre-2.10 pattern matcher)
- Definition Classes
- Trees
- trait CaseDefApi extends Universe.TreeApi
The API that all case defs support
The API that all case defs support
- Definition Classes
- Trees
- abstract class CaseDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
CaseDef(pat, guard, body)
.An extractor class to create and pattern match with syntax
CaseDef(pat, guard, body)
. This AST node corresponds to the following Scala code:case
patif
guard => bodyIf the guard is not present, the
guard
is set toEmptyTree
. If the body is not specified, thebody
is set toLiteral(Constant(()))
- Definition Classes
- Trees
- abstract type ClassDef >: Null <: Universe.ClassDefApi with Universe.ImplDef
A class definition.
A class definition.
- Definition Classes
- Trees
- trait ClassDefApi extends Universe.ImplDefApi
The API that all class defs support
The API that all class defs support
- Definition Classes
- Trees
- abstract class ClassDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ClassDef(mods, name, tparams, impl)
.An extractor class to create and pattern match with syntax
ClassDef(mods, name, tparams, impl)
. This AST node corresponds to the following Scala code:mods
class
name [tparams] implWhere impl stands for:
extends
parents { defs }- Definition Classes
- Trees
- abstract type CompoundTypeTree >: Null <: Universe.CompoundTypeTreeApi with Universe.TypTree
Intersection type <parent1> with ...
Intersection type <parent1> with ... with <parentN> { <decls> }, eliminated by RefCheck
- Definition Classes
- Trees
- trait CompoundTypeTreeApi extends Universe.TypTreeApi
The API that all compound type trees support
The API that all compound type trees support
- Definition Classes
- Trees
- abstract class CompoundTypeTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
CompoundTypeTree(templ)
.An extractor class to create and pattern match with syntax
CompoundTypeTree(templ)
. This AST node corresponds to the following Scala code:parent1 with ... with parentN { refinement }
- Definition Classes
- Trees
- abstract type DefDef >: Null <: Universe.DefDefApi with Universe.ValOrDefDef
A method or macro definition.
A method or macro definition.
- Definition Classes
- Trees
- trait DefDefApi extends Universe.ValOrDefDefApi
The API that all def defs support
The API that all def defs support
- Definition Classes
- Trees
- abstract class DefDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
DefDef(mods, name, tparams, vparamss, tpt, rhs)
.An extractor class to create and pattern match with syntax
DefDef(mods, name, tparams, vparamss, tpt, rhs)
. This AST node corresponds to the following Scala code:mods
def
name[tparams](vparams_1)...(vparams_n): tpt = rhsIf the return type is not specified explicitly (i.e. is meant to be inferred), this is expressed by having
tpt
set toTypeTree()
(but not to anEmptyTree
!).- Definition Classes
- Trees
- abstract type DefTree >: Null <: Universe.DefTreeApi with Universe.SymTree with Universe.NameTree
A tree representing a symbol-defining entity: 1) A declaration or a definition (type, class, object, package, val, var, or def) 2)
Bind
that is used to represent binding occurrences in pattern matches 3)LabelDef
that is used internally to represent while loopsA tree representing a symbol-defining entity: 1) A declaration or a definition (type, class, object, package, val, var, or def) 2)
Bind
that is used to represent binding occurrences in pattern matches 3)LabelDef
that is used internally to represent while loops- Definition Classes
- Trees
- trait DefTreeApi extends Universe.SymTreeApi with Universe.NameTreeApi
The API that all def trees support
The API that all def trees support
- Definition Classes
- Trees
- abstract type ExistentialTypeTree >: Null <: Universe.ExistentialTypeTreeApi with Universe.TypTree
Existential type tree node
Existential type tree node
- Definition Classes
- Trees
- trait ExistentialTypeTreeApi extends Universe.TypTreeApi
The API that all existential type trees support
The API that all existential type trees support
- Definition Classes
- Trees
- abstract class ExistentialTypeTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ExistentialTypeTree(tpt, whereClauses)
.An extractor class to create and pattern match with syntax
ExistentialTypeTree(tpt, whereClauses)
. This AST node corresponds to the following Scala code:tpt forSome { whereClauses }
- Definition Classes
- Trees
- abstract type Function >: Null <: Universe.FunctionApi with Universe.TermTree with Universe.SymTree
Anonymous function, eliminated by compiler phase lambdalift
Anonymous function, eliminated by compiler phase lambdalift
- Definition Classes
- Trees
- trait FunctionApi extends Universe.TermTreeApi with Universe.SymTreeApi
The API that all functions support
The API that all functions support
- Definition Classes
- Trees
- abstract class FunctionExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Function(vparams, body)
.An extractor class to create and pattern match with syntax
Function(vparams, body)
. This AST node corresponds to the following Scala code:vparams => body
The symbol of a Function is a synthetic TermSymbol. It is the owner of the function's parameters.
- Definition Classes
- Trees
- abstract type GenericApply >: Null <: Universe.GenericApplyApi with Universe.TermTree
Common base class for Apply and TypeApply.
Common base class for Apply and TypeApply.
- Definition Classes
- Trees
- trait GenericApplyApi extends Universe.TermTreeApi
The API that all applies support
The API that all applies support
- Definition Classes
- Trees
- abstract type Ident >: Null <: Universe.IdentApi with Universe.RefTree
A reference to identifier
name
.A reference to identifier
name
.- Definition Classes
- Trees
- trait IdentApi extends Universe.RefTreeApi
The API that all idents support
The API that all idents support
- Definition Classes
- Trees
- abstract class IdentExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Ident(qual, name)
.An extractor class to create and pattern match with syntax
Ident(qual, name)
. This AST node corresponds to the following Scala code:name
Type checker converts idents that refer to enclosing fields or methods to selects. For example, name ==> this.name
- Definition Classes
- Trees
- abstract type If >: Null <: Universe.IfApi with Universe.TermTree
Conditional expression
Conditional expression
- Definition Classes
- Trees
- trait IfApi extends Universe.TermTreeApi
The API that all ifs support
The API that all ifs support
- Definition Classes
- Trees
- abstract class IfExtractor extends AnyRef
An extractor class to create and pattern match with syntax
If(cond, thenp, elsep)
.An extractor class to create and pattern match with syntax
If(cond, thenp, elsep)
. This AST node corresponds to the following Scala code:if
(cond) thenpelse
elsepIf the alternative is not present, the
elsep
is set toLiteral(Constant(()))
.- Definition Classes
- Trees
- abstract type ImplDef >: Null <: Universe.ImplDefApi with Universe.MemberDef
A common base class for class and object definitions.
A common base class for class and object definitions.
- Definition Classes
- Trees
- trait ImplDefApi extends Universe.MemberDefApi
The API that all impl defs support
The API that all impl defs support
- Definition Classes
- Trees
- abstract type Import >: Null <: Universe.ImportApi with Universe.SymTree
Import clause
Import clause
- Definition Classes
- Trees
- trait ImportApi extends Universe.SymTreeApi
The API that all imports support
The API that all imports support
- Definition Classes
- Trees
- abstract class ImportExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Import(expr, selectors)
.An extractor class to create and pattern match with syntax
Import(expr, selectors)
. This AST node corresponds to the following Scala code:import expr.{selectors}
Selectors are a list of ImportSelectors, which conceptually are pairs of names (from, to). The last (and maybe only name) may be a nme.WILDCARD. For instance:
import qual.{w => _, x, y => z, _}
Would be represented as:
Import(qual, List(("w", WILDCARD), ("x", "x"), ("y", "z"), (WILDCARD, null)))
The symbol of an
Import
is an import symbol @see Symbol.newImport. It's used primarily as a marker to check that the import has been typechecked.- Definition Classes
- Trees
- abstract type ImportSelector >: Null <: Universe.ImportSelectorApi
Import selector (not a tree, but a component of the
Import
tree)Import selector (not a tree, but a component of the
Import
tree)Representation of an imported name its optional rename and their optional positions
Eliminated by typecheck.
- Definition Classes
- Trees
- trait ImportSelectorApi extends AnyRef
The API that all import selectors support
The API that all import selectors support
- Definition Classes
- Trees
- abstract class ImportSelectorExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ImportSelector(name, namePos, rename, renamePos)
.An extractor class to create and pattern match with syntax
ImportSelector(name, namePos, rename, renamePos)
. This is not an AST node, it is used as a part of theImport
node.- Definition Classes
- Trees
- abstract type LabelDef >: Null <: Universe.LabelDefApi with Universe.DefTree with Universe.TermTree
A labelled expression.
A labelled expression. Not expressible in language syntax, but generated by the compiler to simulate while/do-while loops, and also by the pattern matcher.
The label acts much like a nested function, where
params
represents the incoming parameters. The symbol given to the LabelDef should have a MethodType, as if it were a nested function.Jumps are apply nodes attributed with a label's symbol. The arguments from the apply node will be passed to the label and assigned to the Idents.
Forward jumps within a block are allowed.
- Definition Classes
- Trees
- trait LabelDefApi extends Universe.DefTreeApi with Universe.TermTreeApi
The API that all label defs support
The API that all label defs support
- Definition Classes
- Trees
- abstract class LabelDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
LabelDef(name, params, rhs)
.An extractor class to create and pattern match with syntax
LabelDef(name, params, rhs)
.This AST node does not have direct correspondence to Scala code. It is used for tailcalls and like. For example, while/do are desugared to label defs as follows:
while (cond) body ==> LabelDef($L, List(), if (cond) { body; L$() } else ())
do body while (cond) ==> LabelDef($L, List(), body; if (cond) L$() else ())
- Definition Classes
- Trees
- abstract type Literal >: Null <: Universe.LiteralApi with Universe.TermTree
Literal
Literal
- Definition Classes
- Trees
- trait LiteralApi extends Universe.TermTreeApi
The API that all literals support
The API that all literals support
- Definition Classes
- Trees
- abstract class LiteralExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Literal(value)
.An extractor class to create and pattern match with syntax
Literal(value)
. This AST node corresponds to the following Scala code:value
- Definition Classes
- Trees
- abstract type Match >: Null <: Universe.MatchApi with Universe.TermTree
- Pattern matching expression (before compiler phase explicitouter before 2.10 / patmat from 2.10)
- Pattern matching expression (before compiler phase explicitouter before 2.10 / patmat from 2.10)
- Switch statements (after compiler phase explicitouter before 2.10 / patmat from 2.10)
After compiler phase explicitouter before 2.10 / patmat from 2.10, cases will satisfy the following constraints:
- all guards are
EmptyTree
, - all patterns will be either
Literal(Constant(x:Int))
orAlternative(lit|...|lit)
- except for an "otherwise" branch, which has pattern
Ident(nme.WILDCARD)
- Definition Classes
- Trees
- trait MatchApi extends Universe.TermTreeApi
The API that all matches support
The API that all matches support
- Definition Classes
- Trees
- abstract class MatchExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Match(selector, cases)
.An extractor class to create and pattern match with syntax
Match(selector, cases)
. This AST node corresponds to the following Scala code:selector
match
{ cases }Match
is also used in pattern matching assignments likeval (foo, bar) = baz
.- Definition Classes
- Trees
- abstract type MemberDef >: Null <: Universe.MemberDefApi with Universe.DefTree
Common base class for all member definitions: types, classes, objects, packages, vals and vars, defs.
Common base class for all member definitions: types, classes, objects, packages, vals and vars, defs.
- Definition Classes
- Trees
- trait MemberDefApi extends Universe.DefTreeApi
The API that all member defs support
The API that all member defs support
- Definition Classes
- Trees
- abstract class ModifiersApi extends AnyRef
The API that all Modifiers support
The API that all Modifiers support
- Definition Classes
- Trees
- abstract class ModifiersExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Modifiers(flags, privateWithin, annotations)
.An extractor class to create and pattern match with syntax
Modifiers(flags, privateWithin, annotations)
. Modifiers encapsulate flags, visibility annotations and Scala annotations for member definitions.- Definition Classes
- Trees
- abstract type ModuleDef >: Null <: Universe.ModuleDefApi with Universe.ImplDef
An object definition, e.g.
An object definition, e.g.
object Foo
. Internally, objects are quite frequently called modules to reduce ambiguity. Eliminated by compiler phase refcheck.- Definition Classes
- Trees
- trait ModuleDefApi extends Universe.ImplDefApi
The API that all module defs support
The API that all module defs support
- Definition Classes
- Trees
- abstract class ModuleDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ModuleDef(mods, name, impl)
.An extractor class to create and pattern match with syntax
ModuleDef(mods, name, impl)
. This AST node corresponds to the following Scala code:mods
object
name implWhere impl stands for:
extends
parents { defs }- Definition Classes
- Trees
- abstract type NameTree >: Null <: Universe.NameTreeApi with Universe.Tree
A tree that carries a name, e.g.
A tree that carries a name, e.g. by defining it (
DefTree
) or by referring to it (RefTree
).- Definition Classes
- Trees
- trait NameTreeApi extends Universe.TreeApi
The API that all name trees support
The API that all name trees support
- Definition Classes
- Trees
- abstract type NamedArg >: Null <: Universe.NamedArgApi with Universe.TermTree
Either an assignment or a named argument.
Either an assignment or a named argument. Only appears in argument lists, eliminated by compiler phase typecheck (doTypedApply), resurrected by reifier.
- Definition Classes
- Trees
- trait NamedArgApi extends Universe.TermTreeApi
The API that all assigns support
The API that all assigns support
- Definition Classes
- Trees
- abstract class NamedArgExtractor extends AnyRef
An extractor class to create and pattern match with syntax
NamedArg(lhs, rhs)
.An extractor class to create and pattern match with syntax
NamedArg(lhs, rhs)
. This AST node corresponds to the following Scala code:m.f(lhs = rhs)
@annotation(lhs = rhs)
- Definition Classes
- Trees
- abstract type New >: Null <: Universe.NewApi with Universe.TermTree
Object instantiation
Object instantiation
- Definition Classes
- Trees
- trait NewApi extends Universe.TermTreeApi
The API that all news support
The API that all news support
- Definition Classes
- Trees
- abstract class NewExtractor extends AnyRef
An extractor class to create and pattern match with syntax
New(tpt)
.An extractor class to create and pattern match with syntax
New(tpt)
. This AST node corresponds to the following Scala code:new
TThis node always occurs in the following context:
(
new
tpt).<init>[targs](args)For example, an AST representation of:
new Example[Int](2)(3)
is the following code:
Apply( Apply( TypeApply( Select(New(TypeTree(typeOf[Example])), nme.CONSTRUCTOR) TypeTree(typeOf[Int])), List(Literal(Constant(2)))), List(Literal(Constant(3))))
- Definition Classes
- Trees
- abstract type PackageDef >: Null <: Universe.PackageDefApi with Universe.MemberDef
A packaging, such as
package pid { stats }
A packaging, such as
package pid { stats }
- Definition Classes
- Trees
- trait PackageDefApi extends Universe.MemberDefApi
The API that all package defs support
The API that all package defs support
- Definition Classes
- Trees
- abstract class PackageDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
PackageDef(pid, stats)
.An extractor class to create and pattern match with syntax
PackageDef(pid, stats)
. This AST node corresponds to the following Scala code:package
pid { stats }- Definition Classes
- Trees
- abstract type RefTree >: Null <: Universe.RefTreeApi with Universe.SymTree with Universe.NameTree
A tree which references a symbol-carrying entity.
A tree which references a symbol-carrying entity. References one, as opposed to defining one; definitions are in DefTrees.
- Definition Classes
- Trees
- trait RefTreeApi extends Universe.SymTreeApi with Universe.NameTreeApi
The API that all ref trees support
The API that all ref trees support
- Definition Classes
- Trees
- abstract class RefTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
RefTree(qual, name)
.An extractor class to create and pattern match with syntax
RefTree(qual, name)
. This AST node corresponds to either Ident, Select or SelectFromTypeTree.- Definition Classes
- Trees
- abstract type Return >: Null <: Universe.ReturnApi with Universe.SymTree with Universe.TermTree
Return expression
Return expression
- Definition Classes
- Trees
- trait ReturnApi extends Universe.TermTreeApi
The API that all returns support
The API that all returns support
- Definition Classes
- Trees
- abstract class ReturnExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Return(expr)
.An extractor class to create and pattern match with syntax
Return(expr)
. This AST node corresponds to the following Scala code:return
exprThe symbol of a Return node is the enclosing method.
- Definition Classes
- Trees
- abstract type Select >: Null <: Universe.SelectApi with Universe.RefTree
A member selection <qualifier> .
A member selection <qualifier> . <name>
- Definition Classes
- Trees
- trait SelectApi extends Universe.RefTreeApi
The API that all selects support
The API that all selects support
- Definition Classes
- Trees
- abstract class SelectExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Select(qual, name)
.An extractor class to create and pattern match with syntax
Select(qual, name)
. This AST node corresponds to the following Scala code:qualifier.selector
Should only be used with
qualifier
nodes which are terms, i.e. which haveisTerm
returningtrue
. OtherwiseSelectFromTypeTree
should be used instead.foo.Bar // represented as Select(Ident(<foo>), <Bar>) Foo#Bar // represented as SelectFromTypeTree(Ident(<Foo>), <Bar>)
- Definition Classes
- Trees
- abstract type SelectFromTypeTree >: Null <: Universe.SelectFromTypeTreeApi with Universe.TypTree with Universe.RefTree
Type selection <qualifier> # <name>, eliminated by RefCheck
Type selection <qualifier> # <name>, eliminated by RefCheck
- Definition Classes
- Trees
- trait SelectFromTypeTreeApi extends Universe.TypTreeApi with Universe.RefTreeApi
The API that all selects from type trees support
The API that all selects from type trees support
- Definition Classes
- Trees
- abstract class SelectFromTypeTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
SelectFromTypeTree(qualifier, name)
.An extractor class to create and pattern match with syntax
SelectFromTypeTree(qualifier, name)
. This AST node corresponds to the following Scala code:qualifier # selector
Note: a path-dependent type p.T is expressed as p.type # T
Should only be used with
qualifier
nodes which are types, i.e. which haveisType
returningtrue
. OtherwiseSelect
should be used instead.Foo#Bar // represented as SelectFromTypeTree(Ident(<Foo>), <Bar>) foo.Bar // represented as Select(Ident(<foo>), <Bar>)
- Definition Classes
- Trees
- abstract type SingletonTypeTree >: Null <: Universe.SingletonTypeTreeApi with Universe.TypTree
Singleton type, eliminated by RefCheck
Singleton type, eliminated by RefCheck
- Definition Classes
- Trees
- trait SingletonTypeTreeApi extends Universe.TypTreeApi
The API that all singleton type trees support
The API that all singleton type trees support
- Definition Classes
- Trees
- abstract class SingletonTypeTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
SingletonTypeTree(ref)
.An extractor class to create and pattern match with syntax
SingletonTypeTree(ref)
. This AST node corresponds to the following Scala code:ref.type
- Definition Classes
- Trees
- abstract type Star >: Null <: Universe.StarApi with Universe.TermTree
Repetition of pattern.
Repetition of pattern.
Eliminated by compiler phases patmat (in the new pattern matcher of 2.10) or explicitouter (in the old pre-2.10 pattern matcher).
- Definition Classes
- Trees
- trait StarApi extends Universe.TermTreeApi
The API that all stars support
The API that all stars support
- Definition Classes
- Trees
- abstract class StarExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Star(elem)
.An extractor class to create and pattern match with syntax
Star(elem)
. This AST node corresponds to the following Scala code:pat*
- Definition Classes
- Trees
- abstract type Super >: Null <: Universe.SuperApi with Universe.TermTree
Super reference, where
qual
is the correspondingthis
reference.Super reference, where
qual
is the correspondingthis
reference. A super referenceC.super[M]
is represented asSuper(This(C), M)
.- Definition Classes
- Trees
- trait SuperApi extends Universe.TermTreeApi
The API that all supers support
The API that all supers support
- Definition Classes
- Trees
- abstract class SuperExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Super(qual, mix)
.An extractor class to create and pattern match with syntax
Super(qual, mix)
. This AST node corresponds to the following Scala code:C.super[M]
Which is represented as:
Super(This(C), M)
If
mix
is empty, it is tpnme.EMPTY.The symbol of a Super is the class _from_ which the super reference is made. For instance in C.super(...), it would be C.
- Definition Classes
- Trees
- abstract type SymTree >: Null <: Universe.SymTreeApi with Universe.Tree
A tree that carries a symbol, e.g.
A tree that carries a symbol, e.g. by defining it (
DefTree
) or by referring to it (RefTree
). Such trees start their life naked, returningNoSymbol
, but after being typechecked without errors they hold non-empty symbols.- Definition Classes
- Trees
- trait SymTreeApi extends Universe.TreeApi
The API that all sym trees support
The API that all sym trees support
- Definition Classes
- Trees
- abstract type Template >: Null <: Universe.TemplateApi with Universe.SymTree
Instantiation template of a class or trait
Instantiation template of a class or trait
- Definition Classes
- Trees
- trait TemplateApi extends Universe.SymTreeApi
The API that all templates support
The API that all templates support
- Definition Classes
- Trees
- abstract class TemplateExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Template(parents, self, body)
.An extractor class to create and pattern match with syntax
Template(parents, self, body)
. This AST node corresponds to the following Scala code:extends
parents { self => body }In case when the self-type annotation is missing, it is represented as an empty value definition with nme.WILDCARD as name and NoType as type.
The symbol of a template is a local dummy. @see Symbol.newLocalDummy The owner of the local dummy is the enclosing trait or class. The local dummy is itself the owner of any local blocks. For example:
class C { def foo { // owner is C def bar // owner is local dummy } }
- Definition Classes
- Trees
- abstract type TermTree >: Null <: Universe.TermTreeApi with Universe.Tree
A tree for a term.
A tree for a term. Not all trees representing terms are TermTrees; use isTerm to reliably identify terms.
- Definition Classes
- Trees
- trait TermTreeApi extends Universe.TreeApi
The API that all term trees support
The API that all term trees support
- Definition Classes
- Trees
- abstract type This >: Null <: Universe.ThisApi with Universe.TermTree with Universe.SymTree
Self reference
Self reference
- Definition Classes
- Trees
- trait ThisApi extends Universe.TermTreeApi with Universe.SymTreeApi
The API that all thises support
The API that all thises support
- Definition Classes
- Trees
- abstract class ThisExtractor extends AnyRef
An extractor class to create and pattern match with syntax
This(qual)
.An extractor class to create and pattern match with syntax
This(qual)
. This AST node corresponds to the following Scala code:qual.this
The symbol of a This is the class to which the this refers. For instance in C.this, it would be C.
- Definition Classes
- Trees
- abstract type Throw >: Null <: Universe.ThrowApi with Universe.TermTree
Throw expression
Throw expression
- Definition Classes
- Trees
- trait ThrowApi extends Universe.TermTreeApi
The API that all tries support
The API that all tries support
- Definition Classes
- Trees
- abstract class ThrowExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Throw(expr)
.An extractor class to create and pattern match with syntax
Throw(expr)
. This AST node corresponds to the following Scala code:throw
expr- Definition Classes
- Trees
- abstract class Transformer extends AnyRef
A class that implement a default tree transformation strategy: breadth-first component-wise cloning.
A class that implement a default tree transformation strategy: breadth-first component-wise cloning.
- Definition Classes
- Trees
- class Traverser extends AnyRef
A class that implement a default tree traversal strategy: breadth-first component-wise.
A class that implement a default tree traversal strategy: breadth-first component-wise.
- Definition Classes
- Trees
- abstract type Tree >: Null <: Universe.TreeApi
The type of Scala abstract syntax trees.
The type of Scala abstract syntax trees.
- Definition Classes
- Trees
- trait TreeApi extends Product
The API that all trees support.
The API that all trees support. The main source of information about trees is the scala.reflect.api.Trees page.
- Definition Classes
- Trees
- abstract type TreeCopier >: Null <: Universe.TreeCopierOps
The type of standard (lazy) tree copiers.
The type of standard (lazy) tree copiers.
- Definition Classes
- Trees
- abstract class TreeCopierOps extends AnyRef
The API of a tree copier.
The API of a tree copier.
- Definition Classes
- Trees
- abstract type Try >: Null <: Universe.TryApi with Universe.TermTree
Try catch node
Try catch node
- Definition Classes
- Trees
- trait TryApi extends Universe.TermTreeApi
The API that all tries support
The API that all tries support
- Definition Classes
- Trees
- abstract class TryExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Try(block, catches, finalizer)
.An extractor class to create and pattern match with syntax
Try(block, catches, finalizer)
. This AST node corresponds to the following Scala code:try
blockcatch
{ catches }finally
finalizerIf the finalizer is not present, the
finalizer
is set toEmptyTree
.- Definition Classes
- Trees
- abstract type TypTree >: Null <: Universe.TypTreeApi with Universe.Tree
A tree for a type.
A tree for a type. Not all trees representing types are TypTrees; use isType to reliably identify types.
- Definition Classes
- Trees
- trait TypTreeApi extends Universe.TreeApi
The API that all typ trees support
The API that all typ trees support
- Definition Classes
- Trees
- abstract type TypeApply >: Null <: Universe.TypeApplyApi with Universe.GenericApply
Explicit type application.
Explicit type application.
- Definition Classes
- Trees
- trait TypeApplyApi extends Universe.GenericApplyApi
The API that all type applies support
The API that all type applies support
- Definition Classes
- Trees
- abstract class TypeApplyExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeApply(fun, args)
.An extractor class to create and pattern match with syntax
TypeApply(fun, args)
. This AST node corresponds to the following Scala code:fun[args]
Should only be used with
fun
nodes which are terms, i.e. which haveisTerm
returningtrue
. OtherwiseAppliedTypeTree
should be used instead.def foo[T] = ??? foo[Int] // represented as TypeApply(Ident(<foo>), List(TypeTree(<Int>)))
List[Int] as in
val x: List[Int] = ???
// represented as AppliedTypeTree(Ident(<List>), List(TypeTree(<Int>)))- Definition Classes
- Trees
- abstract type TypeBoundsTree >: Null <: Universe.TypeBoundsTreeApi with Universe.TypTree
Type bounds tree node
Type bounds tree node
- Definition Classes
- Trees
- trait TypeBoundsTreeApi extends Universe.TypTreeApi
The API that all type bound trees support
The API that all type bound trees support
- Definition Classes
- Trees
- abstract class TypeBoundsTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeBoundsTree(lo, hi)
.An extractor class to create and pattern match with syntax
TypeBoundsTree(lo, hi)
. This AST node corresponds to the following Scala code:>: lo <: hi
- Definition Classes
- Trees
- abstract type TypeDef >: Null <: Universe.TypeDefApi with Universe.MemberDef
An abstract type, a type parameter, or a type alias.
An abstract type, a type parameter, or a type alias. Eliminated by erasure.
- Definition Classes
- Trees
- trait TypeDefApi extends Universe.MemberDefApi
The API that all type defs support
The API that all type defs support
- Definition Classes
- Trees
- abstract class TypeDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeDef(mods, name, tparams, rhs)
.An extractor class to create and pattern match with syntax
TypeDef(mods, name, tparams, rhs)
. This AST node corresponds to the following Scala code:mods
type
name[tparams] = rhsmods
type
name[tparams] >: lo <: hiFirst usage illustrates
TypeDefs
representing type aliases and type parameters. Second usage illustratesTypeDefs
representing abstract types, where lo and hi are bothTypeBoundsTrees
andModifier.deferred
is set in mods.- Definition Classes
- Trees
- abstract type TypeTree >: Null <: Universe.TypeTreeApi with Universe.TypTree
A synthetic tree holding an arbitrary type.
A synthetic tree holding an arbitrary type. Not to be confused with with TypTree, the trait for trees that are only used for type trees. TypeTree's are inserted in several places, but most notably in
RefCheck
, where the arbitrary type trees are all replaced by TypeTree's.- Definition Classes
- Trees
- trait TypeTreeApi extends Universe.TypTreeApi
The API that all type trees support
The API that all type trees support
- Definition Classes
- Trees
- abstract class TypeTreeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeTree()
.An extractor class to create and pattern match with syntax
TypeTree()
. This AST node does not have direct correspondence to Scala code, and is emitted by everywhere when we want to wrap aType
in aTree
.- Definition Classes
- Trees
- abstract type Typed >: Null <: Universe.TypedApi with Universe.TermTree
Type annotation, eliminated by compiler phase cleanup
Type annotation, eliminated by compiler phase cleanup
- Definition Classes
- Trees
- trait TypedApi extends Universe.TermTreeApi
The API that all typeds support
The API that all typeds support
- Definition Classes
- Trees
- abstract class TypedExtractor extends AnyRef
An extractor class to create and pattern match with syntax
Typed(expr, tpt)
.An extractor class to create and pattern match with syntax
Typed(expr, tpt)
. This AST node corresponds to the following Scala code:expr: tpt
- Definition Classes
- Trees
- abstract type UnApply >: Null <: Universe.UnApplyApi with Universe.TermTree
Used to represent
unapply
methods in pattern matching.Used to represent
unapply
methods in pattern matching.For example:
2 match { case Foo(x) => x }
Is represented as:
Match( Literal(Constant(2)), List( CaseDef( UnApply( // a dummy node that carries the type of unapplication to patmat // the <unapply-selector> here doesn't have an underlying symbol // it only has a type assigned, therefore after `untypecheck` this tree is no longer typeable Apply(Select(Ident(Foo), TermName("unapply")), List(Ident(TermName("<unapply-selector>")))), // arguments of the unapply => nothing synthetic here List(Bind(TermName("x"), Ident(nme.WILDCARD)))), EmptyTree, Ident(TermName("x")))))
Introduced by typer. Eliminated by compiler phases patmat (in the new pattern matcher of 2.10) or explicitouter (in the old pre-2.10 pattern matcher).
- Definition Classes
- Trees
- trait UnApplyApi extends Universe.TermTreeApi
The API that all unapplies support
The API that all unapplies support
- Definition Classes
- Trees
- abstract class UnApplyExtractor extends AnyRef
An extractor class to create and pattern match with syntax
UnApply(fun, args)
.An extractor class to create and pattern match with syntax
UnApply(fun, args)
. This AST node does not have direct correspondence to Scala code, and is introduced when typechecking pattern matches andtry
blocks.- Definition Classes
- Trees
- abstract type ValDef >: Null <: Universe.ValDefApi with Universe.ValOrDefDef
Broadly speaking, a value definition.
Broadly speaking, a value definition. All these are encoded as ValDefs:
- immutable values, e.g. "val x"
- mutable values, e.g. "var x" - the MUTABLE flag set in mods
- lazy values, e.g. "lazy val x" - the LAZY flag set in mods
- method parameters, see vparamss in scala.reflect.api.Trees#DefDef - the PARAM flag is set in mods
- explicit self-types, e.g. class A { self: Bar => }
- Definition Classes
- Trees
- trait ValDefApi extends Universe.ValOrDefDefApi
The API that all val defs support
The API that all val defs support
- Definition Classes
- Trees
- abstract class ValDefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ValDef(mods, name, tpt, rhs)
.An extractor class to create and pattern match with syntax
ValDef(mods, name, tpt, rhs)
. This AST node corresponds to any of the following Scala code:mods
val
name: tpt = rhsmods
var
name: tpt = rhsmods name: tpt = rhs // in signatures of function and method definitions
self: Bar => // self-types
If the type of a value is not specified explicitly (i.e. is meant to be inferred), this is expressed by having
tpt
set toTypeTree()
(but not to anEmptyTree
!).- Definition Classes
- Trees
- abstract type ValOrDefDef >: Null <: Universe.ValOrDefDefApi with Universe.MemberDef
A common base class for ValDefs and DefDefs.
A common base class for ValDefs and DefDefs.
- Definition Classes
- Trees
- trait ValOrDefDefApi extends Universe.MemberDefApi
The API that all val defs and def defs support
The API that all val defs and def defs support
- Definition Classes
- Trees
- trait TypeTag[T] extends Universe.WeakTypeTag[T] with Equals with Serializable
A
TypeTag
is a scala.reflect.api.TypeTags#WeakTypeTag with the additional static guarantee that all type references are concrete, i.e.A
TypeTag
is a scala.reflect.api.TypeTags#WeakTypeTag with the additional static guarantee that all type references are concrete, i.e. it does not contain any references to unresolved type parameters or abstract types.- Definition Classes
- TypeTags
- Annotations
- @implicitNotFound("No TypeTag available for ${T}")
- See also
- trait WeakTypeTag[T] extends Equals with Serializable
If an implicit value of type
WeakTypeTag[T]
is required, the compiler will create one, and the reflective representation ofT
can be accessed via thetpe
field.If an implicit value of type
WeakTypeTag[T]
is required, the compiler will create one, and the reflective representation ofT
can be accessed via thetpe
field. Components ofT
can be references to type parameters or abstract types. Note thatWeakTypeTag
makes an effort to be as concrete as possible, i.e. ifTypeTag
s are available for the referenced type arguments or abstract types, they are used to embed the concrete types into the WeakTypeTag. Otherwise the WeakTypeTag will contain a reference to an abstract type. This behavior can be useful, when one expectsT
to be perhaps be partially abstract, but requires special care to handle this case. However, ifT
is expected to be fully known, use scala.reflect.api.TypeTags#TypeTag instead, which statically guarantees this property.For more information about
TypeTag
s, see the Reflection Guide: TypeTags- Definition Classes
- TypeTags
- Annotations
- @implicitNotFound("No WeakTypeTag available for ${T}")
- See also
- abstract type AnnotatedType >: Null <: Universe.AnnotatedTypeApi with Universe.Type
The
AnnotatedType
type signature is used for annotated types of the for<type> @<annotation>
.The
AnnotatedType
type signature is used for annotated types of the for<type> @<annotation>
.- Definition Classes
- Types
- trait AnnotatedTypeApi extends Universe.TypeApi
The API that all annotated types support.
The API that all annotated types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class AnnotatedTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
AnnotatedType(annotations, underlying)
.An extractor class to create and pattern match with syntax
AnnotatedType(annotations, underlying)
. Here,annotations
are the annotations decorating the underlying typeunderlying
.selfSym
is a symbol representing the annotated type itself.- Definition Classes
- Types
- abstract type BoundedWildcardType >: Null <: Universe.BoundedWildcardTypeApi with Universe.Type
BoundedWildcardTypes, used only during type inference, are created in two places:
BoundedWildcardTypes, used only during type inference, are created in two places:
- If the expected type of an expression is an existential type, its hidden symbols are replaced with bounded wildcards. 2. When an implicit conversion is being sought based in part on the name of a method in the converted type, a HasMethodMatching type is created: a MethodType with parameters typed as BoundedWildcardTypes.
- Definition Classes
- Types
- trait BoundedWildcardTypeApi extends Universe.TypeApi
The API that all this types support.
The API that all this types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class BoundedWildcardTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
BoundedWildcardTypeExtractor(bounds)
withbounds
denoting the type bounds.An extractor class to create and pattern match with syntax
BoundedWildcardTypeExtractor(bounds)
withbounds
denoting the type bounds.- Definition Classes
- Types
- abstract type ClassInfoType >: Null <: Universe.ClassInfoTypeApi with Universe.CompoundType
The
ClassInfo
type signature is used to define parents and declarations of classes, traits, and objects.The
ClassInfo
type signature is used to define parents and declarations of classes, traits, and objects. If a class, trait, or object C is declared like thisC extends P_1 with ... with P_m { D_1; ...; D_n}
its
ClassInfo
type has the following form:ClassInfo(List(P_1, ..., P_m), Scope(D_1, ..., D_n), C)
- Definition Classes
- Types
- trait ClassInfoTypeApi extends Universe.TypeApi
The API that all class info types support.
The API that all class info types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class ClassInfoTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ClassInfo(parents, decls, clazz)
Here,parents
is the list of parent types of the class,decls
is the scope containing all declarations in the class, andclazz
is the symbol of the class itself.An extractor class to create and pattern match with syntax
ClassInfo(parents, decls, clazz)
Here,parents
is the list of parent types of the class,decls
is the scope containing all declarations in the class, andclazz
is the symbol of the class itself.- Definition Classes
- Types
- abstract type CompoundType >: Null <: Universe.CompoundTypeApi with Universe.Type
A subtype of Type representing refined types as well as
ClassInfo
signatures.A subtype of Type representing refined types as well as
ClassInfo
signatures.- Definition Classes
- Types
- trait CompoundTypeApi extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
CompoundType
.- Definition Classes
- Types
- abstract type ConstantType >: Null <: Universe.ConstantTypeApi with Universe.SingletonType
A
ConstantType
type cannot be expressed in user programs; it is inferred as the type of a constant.A
ConstantType
type cannot be expressed in user programs; it is inferred as the type of a constant. Here are some constants with their types and the internal string representation:1 ConstantType(Constant(1)) Int(1) "abc" ConstantType(Constant("abc")) String("abc")
ConstantTypes denote values that may safely be constant folded during type checking. The
deconst
operation returns the equivalent type that will not be constant folded.- Definition Classes
- Types
- trait ConstantTypeApi extends Universe.TypeApi
The API that all constant types support.
The API that all constant types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class ConstantTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ConstantType(constant)
Here,constant
is the constant value represented by the type.An extractor class to create and pattern match with syntax
ConstantType(constant)
Here,constant
is the constant value represented by the type.- Definition Classes
- Types
- abstract type ExistentialType >: Null <: Universe.ExistentialTypeApi with Universe.Type
The
ExistentialType
type signature is used for existential types and wildcard types.The
ExistentialType
type signature is used for existential types and wildcard types.- Definition Classes
- Types
- trait ExistentialTypeApi extends Universe.TypeApi
The API that all existential types support.
The API that all existential types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class ExistentialTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ExistentialType(quantified, underlying)
.An extractor class to create and pattern match with syntax
ExistentialType(quantified, underlying)
. Here,quantified
are the type variables bound by the existential type andunderlying
is the type that's existentially quantified.- Definition Classes
- Types
- abstract type MethodType >: Null <: Universe.MethodTypeApi with Universe.Type
The
MethodType
type signature is used to indicate parameters and result type of a methodThe
MethodType
type signature is used to indicate parameters and result type of a method- Definition Classes
- Types
- trait MethodTypeApi extends Universe.TypeApi
The API that all method types support.
The API that all method types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class MethodTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
MethodType(params, restpe)
Here,params
is a potentially empty list of parameter symbols of the method, andrestpe
is the result type of the method.An extractor class to create and pattern match with syntax
MethodType(params, restpe)
Here,params
is a potentially empty list of parameter symbols of the method, andrestpe
is the result type of the method. If the method is curried,restpe
would be anotherMethodType
. Note:MethodType(Nil, Int)
would be the type of a method defined with an empty parameter list.def f(): Int
If the method is completely parameterless, as in
def f: Int
its type is a
NullaryMethodType
.- Definition Classes
- Types
- abstract type NullaryMethodType >: Null <: Universe.NullaryMethodTypeApi with Universe.Type
The
NullaryMethodType
type signature is used for parameterless methods with declarations of the formdef foo: T
The
NullaryMethodType
type signature is used for parameterless methods with declarations of the formdef foo: T
- Definition Classes
- Types
- trait NullaryMethodTypeApi extends Universe.TypeApi
The API that all nullary method types support.
The API that all nullary method types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class NullaryMethodTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
NullaryMethodType(resultType)
.An extractor class to create and pattern match with syntax
NullaryMethodType(resultType)
. Here,resultType
is the result type of the parameterless method.- Definition Classes
- Types
- abstract type PolyType >: Null <: Universe.PolyTypeApi with Universe.Type
The
PolyType
type signature is used for polymorphic methods that have at least one type parameter.The
PolyType
type signature is used for polymorphic methods that have at least one type parameter.- Definition Classes
- Types
- trait PolyTypeApi extends Universe.TypeApi
The API that all polymorphic types support.
The API that all polymorphic types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class PolyTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
PolyType(typeParams, resultType)
.An extractor class to create and pattern match with syntax
PolyType(typeParams, resultType)
. Here,typeParams
are the type parameters of the method andresultType
is the type signature following the type parameters.- Definition Classes
- Types
- abstract type RefinedType >: Null <: Universe.RefinedTypeApi with Universe.CompoundType
The
RefinedType
type defines types of any of the forms on the left, with their RefinedType representations to the right.The
RefinedType
type defines types of any of the forms on the left, with their RefinedType representations to the right.P_1 with ... with P_m { D_1; ...; D_n} RefinedType(List(P_1, ..., P_m), Scope(D_1, ..., D_n)) P_1 with ... with P_m RefinedType(List(P_1, ..., P_m), Scope()) { D_1; ...; D_n} RefinedType(List(AnyRef), Scope(D_1, ..., D_n))
- Definition Classes
- Types
- trait RefinedTypeApi extends Universe.TypeApi
The API that all refined types support.
The API that all refined types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class RefinedTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
RefinedType(parents, decls)
Here,parents
is the list of parent types of the class, anddecls
is the scope containing all declarations in the class.An extractor class to create and pattern match with syntax
RefinedType(parents, decls)
Here,parents
is the list of parent types of the class, anddecls
is the scope containing all declarations in the class.- Definition Classes
- Types
- abstract type SingleType >: Null <: Universe.SingleTypeApi with Universe.SingletonType
The
SingleType
type describes types of any of the forms on the left, with their TypeRef representations to the right.The
SingleType
type describes types of any of the forms on the left, with their TypeRef representations to the right.(T # x).type SingleType(T, x) p.x.type SingleType(p.type, x) x.type SingleType(NoPrefix, x)
- Definition Classes
- Types
- trait SingleTypeApi extends Universe.TypeApi
The API that all single types support.
The API that all single types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class SingleTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
SingleType(pre, sym)
Here,pre
is the prefix of the single-type, andsym
is the stable value symbol referred to by the single-type.An extractor class to create and pattern match with syntax
SingleType(pre, sym)
Here,pre
is the prefix of the single-type, andsym
is the stable value symbol referred to by the single-type.- Definition Classes
- Types
- abstract type SingletonType >: Null <: Universe.SingletonTypeApi with Universe.Type
The type of Scala singleton types, i.e., types that are inhabited by only one nun-null value.
The type of Scala singleton types, i.e., types that are inhabited by only one nun-null value. These include types of the forms
C.this.type C.super.type x.type
as well as constant types.
- Definition Classes
- Types
- trait SingletonTypeApi extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
SingletonType
.- Definition Classes
- Types
- abstract type SuperType >: Null <: Universe.SuperTypeApi with Universe.SingletonType
The
SuperType
type is not directly written, but arises whenC.super
is used as a prefix in aTypeRef
orSingleType
.The
SuperType
type is not directly written, but arises whenC.super
is used as a prefix in aTypeRef
orSingleType
. Its internal presentation isSuperType(thistpe, supertpe)
Here,
thistpe
is the type of the corresponding this-type. For instance, in the type arising from C.super, thethistpe
part would beThisType(C)
.supertpe
is the type of the super class referred to by thesuper
.- Definition Classes
- Types
- trait SuperTypeApi extends Universe.TypeApi
The API that all super types support.
The API that all super types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class SuperTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
SuperType(thistpe, supertpe)
An extractor class to create and pattern match with syntax
SuperType(thistpe, supertpe)
- Definition Classes
- Types
- abstract type ThisType >: Null <: Universe.ThisTypeApi with Universe.SingletonType
A singleton type that describes types of the form on the left with the corresponding
ThisType
representation to the right:A singleton type that describes types of the form on the left with the corresponding
ThisType
representation to the right:C.this.type ThisType(C)
- Definition Classes
- Types
- trait ThisTypeApi extends Universe.TypeApi
The API that all this types support.
The API that all this types support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class ThisTypeExtractor extends AnyRef
An extractor class to create and pattern match with syntax
ThisType(sym)
wheresym
is the class prefix of the this type.An extractor class to create and pattern match with syntax
ThisType(sym)
wheresym
is the class prefix of the this type.- Definition Classes
- Types
- abstract type Type >: Null <: Universe.TypeApi
The type of Scala types, and also Scala type signatures.
The type of Scala types, and also Scala type signatures. (No difference is internally made between the two).
- Definition Classes
- Types
- abstract class TypeApi extends AnyRef
The API of types.
The API of types. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract type TypeBounds >: Null <: Universe.TypeBoundsApi with Universe.Type
The
TypeBounds
type signature is used to indicate lower and upper type bounds of type parameters and abstract types.The
TypeBounds
type signature is used to indicate lower and upper type bounds of type parameters and abstract types. It is not a first-class type. If an abstract type or type parameter is declared with any of the forms on the left, its type signature is the TypeBounds type on the right.T >: L <: U TypeBounds(L, U) T >: L TypeBounds(L, Any) T <: U TypeBounds(Nothing, U)
- Definition Classes
- Types
- trait TypeBoundsApi extends Universe.TypeApi
The API that all type bounds support.
The API that all type bounds support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class TypeBoundsExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeBound(lower, upper)
Here,lower
is the lower bound of theTypeBounds
pair, andupper
is the upper bound.An extractor class to create and pattern match with syntax
TypeBound(lower, upper)
Here,lower
is the lower bound of theTypeBounds
pair, andupper
is the upper bound.- Definition Classes
- Types
- abstract type TypeRef >: Null <: Universe.TypeRefApi with Universe.Type
The
TypeRef
type describes types of any of the forms on the left, with their TypeRef representations to the right.The
TypeRef
type describes types of any of the forms on the left, with their TypeRef representations to the right.T # C[T_1, ..., T_n] TypeRef(T, C, List(T_1, ..., T_n)) p.C[T_1, ..., T_n] TypeRef(p.type, C, List(T_1, ..., T_n)) C[T_1, ..., T_n] TypeRef(NoPrefix, C, List(T_1, ..., T_n)) T # C TypeRef(T, C, Nil) p.C TypeRef(p.type, C, Nil) C TypeRef(NoPrefix, C, Nil)
- Definition Classes
- Types
- trait TypeRefApi extends Universe.TypeApi
The API that all type refs support.
The API that all type refs support. The main source of information about types is the scala.reflect.api.Types page.
- Definition Classes
- Types
- abstract class TypeRefExtractor extends AnyRef
An extractor class to create and pattern match with syntax
TypeRef(pre, sym, args)
Here,pre
is the prefix of the type reference,sym
is the symbol referred to by the type reference, andargs
is a possible empty list of type arguments.An extractor class to create and pattern match with syntax
TypeRef(pre, sym, args)
Here,pre
is the prefix of the type reference,sym
is the symbol referred to by the type reference, andargs
is a possible empty list of type arguments.- Definition Classes
- Types
- abstract type Internal <: MacroInternalApi
- trait MacroInternalApi extends InternalApi
<invalid inheritdoc annotation>
- abstract type Mirror >: Null <: api.Mirror[Universe.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.
Mirror
of a scala.reflect.api.JavaUniverse is capable of reflection).- Definition Classes
- Mirrors
- abstract type Modifiers >: Null <: ModifiersApi
The type of tree modifiers (not a tree, but rather part of DefTrees).
The type of tree modifiers (not a tree, but rather part of DefTrees).
- Definition Classes
- Trees
- abstract type Name >: Null <: NameApi
The abstract type of names.
The abstract type of names.
- Definition Classes
- Names
- abstract type Position >: Null <: api.Position { type Pos = Universe.this.Position }
Defines a universe-specific notion of positions.
Defines a universe-specific notion of positions. The main documentation entry about positions is located at scala.reflect.api.Position.
- Definition Classes
- Positions
- abstract type RuntimeClass >: Null <: AnyRef
Abstracts the runtime representation of a class on the underlying platform.
Abstracts the runtime representation of a class on the underlying platform.
- Definition Classes
- Mirrors
- abstract type TermName >: Null <: TermNameApi with Name
The abstract type of names representing types.
The abstract type of names representing types.
- Definition Classes
- Names
- trait TreeGen extends AnyRef
- abstract type TypeName >: Null <: TypeNameApi with Name
The abstract type of names representing terms.
The abstract type of names representing terms.
- Definition Classes
- Names
Deprecated Type Members
- abstract type JavaArgument >: Null <: Universe.JavaArgumentApi
A Java annotation argument
A Java annotation argument
- Definition Classes
- Annotations
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
Annotation.tree
to inspect annotation arguments
- trait JavaArgumentApi extends AnyRef
Has no special methods.
Has no special methods. Is here to provides erased identity for
CompoundType
.- Definition Classes
- Annotations
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
Annotation.tree
to inspect annotation arguments
- trait CompatApi extends AnyRef
- class CompatToken extends AnyRef
Presence of an implicit value of this type in scope indicates that source compatibility with Scala 2.10 has been enabled.
Presence of an implicit value of this type in scope indicates that source compatibility with Scala 2.10 has been enabled.
- Definition Classes
- Internals
- Annotations
- @implicitNotFound("This method has been removed from the public API. Import compat._ or migrate away.") @deprecated
- Deprecated
(Since version 2.13.0) compatibility with Scala 2.10 EOL
- abstract type Compat <: MacroCompatApi
- abstract type CompilationUnit <: CompilationUnitContextApi
The type of compilation units.
The type of compilation units.
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) c.enclosingTree-style APIs are now deprecated; consult the scaladoc for more information
- See also
- trait CompilationUnitContextApi extends AnyRef
Compilation unit describes a unit of work of the compilation run.
Compilation unit describes a unit of work of the compilation run. It provides such information as file name, textual representation of the unit and the underlying AST.
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) c.enclosingTree-style APIs are now deprecated; consult the scaladoc for more information
- See also
- trait MacroCompatApi extends CompatApi
- Annotations
- @deprecated
- Deprecated
(Since version 2.13.0) compatibility with Scala 2.10 EOL
- See also
- type ModifiersCreator = ModifiersExtractor
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use ModifiersExtractor instead
- abstract type Run <: RunContextApi
The type of compilation runs.
The type of compilation runs.
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) c.enclosingTree-style APIs are now deprecated; consult the scaladoc for more information
- See also
- trait RunContextApi extends AnyRef
Compilation run uniquely identifies current invocation of the compiler (e.g.
Compilation run uniquely identifies current invocation of the compiler (e.g. can be used to implement per-run caches for macros) and provides access to units of work of the invocation (currently processed unit of work and the list of all units).
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) c.enclosingTree-style APIs are now deprecated; consult the scaladoc for more information
- See also
Abstract Value Members
- abstract val Alternative: AlternativeExtractor
The constructor/extractor for
Alternative
instances.The constructor/extractor for
Alternative
instances.- Definition Classes
- Trees
- implicit abstract val AlternativeTag: ClassTag[Alternative]
- Definition Classes
- ImplicitTags
- abstract val Annotated: AnnotatedExtractor
The constructor/extractor for
Annotated
instances.The constructor/extractor for
Annotated
instances.- Definition Classes
- Trees
- implicit abstract val AnnotatedTag: ClassTag[Annotated]
- Definition Classes
- ImplicitTags
- abstract val AnnotatedType: AnnotatedTypeExtractor
The constructor/extractor for
AnnotatedType
instances.The constructor/extractor for
AnnotatedType
instances.- Definition Classes
- Types
- implicit abstract val AnnotatedTypeTag: ClassTag[AnnotatedType]
- Definition Classes
- ImplicitTags
- abstract val Annotation: AnnotationExtractor
The constructor/extractor for
Annotation
instances.The constructor/extractor for
Annotation
instances.- Definition Classes
- Annotations
- implicit abstract val AnnotationTag: ClassTag[Annotation]
- Definition Classes
- ImplicitTags
- abstract val AppliedTypeTree: AppliedTypeTreeExtractor
The constructor/extractor for
AppliedTypeTree
instances.The constructor/extractor for
AppliedTypeTree
instances.- Definition Classes
- Trees
- implicit abstract val AppliedTypeTreeTag: ClassTag[AppliedTypeTree]
- Definition Classes
- ImplicitTags
- abstract val Apply: ApplyExtractor
The constructor/extractor for
Apply
instances.The constructor/extractor for
Apply
instances.- Definition Classes
- Trees
- implicit abstract val ApplyTag: ClassTag[Apply]
- Definition Classes
- ImplicitTags
- abstract val Assign: AssignExtractor
The constructor/extractor for
Assign
instances.The constructor/extractor for
Assign
instances.- Definition Classes
- Trees
- implicit abstract val AssignTag: ClassTag[Assign]
- Definition Classes
- ImplicitTags
- abstract val Bind: BindExtractor
The constructor/extractor for
Bind
instances.The constructor/extractor for
Bind
instances.- Definition Classes
- Trees
- implicit abstract val BindTag: ClassTag[Bind]
- Definition Classes
- ImplicitTags
- abstract val Block: BlockExtractor
The constructor/extractor for
Block
instances.The constructor/extractor for
Block
instances.- Definition Classes
- Trees
- implicit abstract val BlockTag: ClassTag[Block]
- Definition Classes
- ImplicitTags
- abstract val BoundedWildcardType: BoundedWildcardTypeExtractor
The constructor/extractor for
BoundedWildcardType
instances.The constructor/extractor for
BoundedWildcardType
instances.- Definition Classes
- Types
- implicit abstract val BoundedWildcardTypeTag: ClassTag[BoundedWildcardType]
- Definition Classes
- ImplicitTags
- abstract val CaseDef: CaseDefExtractor
The constructor/extractor for
CaseDef
instances.The constructor/extractor for
CaseDef
instances.- Definition Classes
- Trees
- implicit abstract val CaseDefTag: ClassTag[CaseDef]
- Definition Classes
- ImplicitTags
- abstract val ClassDef: ClassDefExtractor
The constructor/extractor for
ClassDef
instances.The constructor/extractor for
ClassDef
instances.- Definition Classes
- Trees
- implicit abstract val ClassDefTag: ClassTag[ClassDef]
- Definition Classes
- ImplicitTags
- abstract val ClassInfoType: ClassInfoTypeExtractor
The constructor/extractor for
ClassInfoType
instances.The constructor/extractor for
ClassInfoType
instances.- Definition Classes
- Types
- implicit abstract val ClassInfoTypeTag: ClassTag[ClassInfoType]
- Definition Classes
- ImplicitTags
- implicit abstract val ClassSymbolTag: ClassTag[ClassSymbol]
- Definition Classes
- ImplicitTags
- implicit abstract val CompoundTypeTag: ClassTag[CompoundType]
- Definition Classes
- ImplicitTags
- abstract val CompoundTypeTree: CompoundTypeTreeExtractor
The constructor/extractor for
CompoundTypeTree
instances.The constructor/extractor for
CompoundTypeTree
instances.- Definition Classes
- Trees
- implicit abstract val CompoundTypeTreeTag: ClassTag[CompoundTypeTree]
- Definition Classes
- ImplicitTags
- abstract val Constant: ConstantExtractor
The constructor/extractor for
Constant
instances.The constructor/extractor for
Constant
instances.- Definition Classes
- Constants
- implicit abstract val ConstantTag: ClassTag[Constant]
- Definition Classes
- ImplicitTags
- abstract val ConstantType: ConstantTypeExtractor
The constructor/extractor for
ConstantType
instances.The constructor/extractor for
ConstantType
instances.- Definition Classes
- Types
- implicit abstract val ConstantTypeTag: ClassTag[ConstantType]
- Definition Classes
- ImplicitTags
- abstract val DefDef: DefDefExtractor
The constructor/extractor for
DefDef
instances.The constructor/extractor for
DefDef
instances.- Definition Classes
- Trees
- implicit abstract val DefDefTag: ClassTag[DefDef]
- Definition Classes
- ImplicitTags
- implicit abstract val DefTreeTag: ClassTag[DefTree]
- Definition Classes
- ImplicitTags
- abstract val EmptyTree: Tree
The empty tree
The empty tree
- Definition Classes
- Trees
- abstract val ExistentialType: ExistentialTypeExtractor
The constructor/extractor for
ExistentialType
instances.The constructor/extractor for
ExistentialType
instances.- Definition Classes
- Types
- implicit abstract val ExistentialTypeTag: ClassTag[ExistentialType]
- Definition Classes
- ImplicitTags
- abstract val ExistentialTypeTree: ExistentialTypeTreeExtractor
The constructor/extractor for
ExistentialTypeTree
instances.The constructor/extractor for
ExistentialTypeTree
instances.- Definition Classes
- Trees
- implicit abstract val ExistentialTypeTreeTag: ClassTag[ExistentialTypeTree]
- Definition Classes
- ImplicitTags
- abstract val Flag: FlagValues
A module that contains all possible values that can constitute flag sets.
A module that contains all possible values that can constitute flag sets.
- Definition Classes
- FlagSets
- implicit abstract val FlagSetTag: ClassTag[FlagSet]
- Definition Classes
- ImplicitTags
- implicit abstract val FreeTermSymbolTag: ClassTag[FreeTermSymbol]
Tag that preserves the identity of
FreeTermSymbol
in the face of erasure.Tag that preserves the identity of
FreeTermSymbol
in the face of erasure. Can be used for pattern matching, instance tests, serialization and the like.- Definition Classes
- Internals
- implicit abstract val FreeTypeSymbolTag: ClassTag[FreeTypeSymbol]
Tag that preserves the identity of
FreeTermSymbol
in the face of erasure.Tag that preserves the identity of
FreeTermSymbol
in the face of erasure. Can be used for pattern matching, instance tests, serialization and the like.- Definition Classes
- Internals
- abstract val Function: FunctionExtractor
The constructor/extractor for
Function
instances.The constructor/extractor for
Function
instances.- Definition Classes
- Trees
- implicit abstract val FunctionTag: ClassTag[Function]
- Definition Classes
- ImplicitTags
- implicit abstract val GenericApplyTag: ClassTag[GenericApply]
- Definition Classes
- ImplicitTags
- abstract def Ident(sym: Symbol): Ident
A factory method for
Ident
nodes.A factory method for
Ident
nodes.- Definition Classes
- Trees
- abstract val Ident: IdentExtractor
The constructor/extractor for
Ident
instances.The constructor/extractor for
Ident
instances.- Definition Classes
- Trees
- implicit abstract val IdentTag: ClassTag[Ident]
- Definition Classes
- ImplicitTags
- abstract val If: IfExtractor
The constructor/extractor for
If
instances.The constructor/extractor for
If
instances.- Definition Classes
- Trees
- implicit abstract val IfTag: ClassTag[If]
- Definition Classes
- ImplicitTags
- implicit abstract val ImplDefTag: ClassTag[ImplDef]
- Definition Classes
- ImplicitTags
- abstract val Import: ImportExtractor
The constructor/extractor for
Import
instances.The constructor/extractor for
Import
instances.- Definition Classes
- Trees
- abstract val ImportSelector: ImportSelectorExtractor
The constructor/extractor for
ImportSelector
instances.The constructor/extractor for
ImportSelector
instances.- Definition Classes
- Trees
- implicit abstract val ImportSelectorTag: ClassTag[ImportSelector]
- Definition Classes
- ImplicitTags
- implicit abstract val ImportTag: ClassTag[Import]
- Definition Classes
- ImplicitTags
- implicit abstract val JavaArgumentTag: ClassTag[JavaArgument]
- Definition Classes
- ImplicitTags
- abstract val LabelDef: LabelDefExtractor
The constructor/extractor for
LabelDef
instances.The constructor/extractor for
LabelDef
instances.- Definition Classes
- Trees
- implicit abstract val LabelDefTag: ClassTag[LabelDef]
- Definition Classes
- ImplicitTags
- abstract val Literal: LiteralExtractor
The constructor/extractor for
Literal
instances.The constructor/extractor for
Literal
instances.- Definition Classes
- Trees
- implicit abstract val LiteralTag: ClassTag[Literal]
- Definition Classes
- ImplicitTags
- abstract val Match: MatchExtractor
The constructor/extractor for
Match
instances.The constructor/extractor for
Match
instances.- Definition Classes
- Trees
- implicit abstract val MatchTag: ClassTag[Match]
- Definition Classes
- ImplicitTags
- implicit abstract val MemberDefTag: ClassTag[MemberDef]
- Definition Classes
- ImplicitTags
- implicit abstract val MemberScopeTag: ClassTag[MemberScope]
- Definition Classes
- ImplicitTags
- implicit abstract val MethodSymbolTag: ClassTag[MethodSymbol]
- Definition Classes
- ImplicitTags
- abstract val MethodType: MethodTypeExtractor
The constructor/extractor for
MethodType
instances.The constructor/extractor for
MethodType
instances.- Definition Classes
- Types
- implicit abstract val MethodTypeTag: ClassTag[MethodType]
- Definition Classes
- ImplicitTags
- implicit abstract val MirrorTag: ClassTag[Mirror]
- Definition Classes
- ImplicitTags
- abstract val Modifiers: ModifiersExtractor
The constructor/extractor for
Modifiers
instances.The constructor/extractor for
Modifiers
instances.- Definition Classes
- Trees
- implicit abstract val ModifiersTag: ClassTag[Modifiers]
- Definition Classes
- ImplicitTags
- abstract val ModuleDef: ModuleDefExtractor
The constructor/extractor for
ModuleDef
instances.The constructor/extractor for
ModuleDef
instances.- Definition Classes
- Trees
- implicit abstract val ModuleDefTag: ClassTag[ModuleDef]
- Definition Classes
- ImplicitTags
- implicit abstract val ModuleSymbolTag: ClassTag[ModuleSymbol]
- Definition Classes
- ImplicitTags
- implicit abstract val NameTag: ClassTag[Name]
- Definition Classes
- ImplicitTags
- implicit abstract val NameTreeTag: ClassTag[NameTree]
- Definition Classes
- ImplicitTags
- abstract val NamedArg: NamedArgExtractor
The constructor/extractor for
NamedArg
instances.The constructor/extractor for
NamedArg
instances.- Definition Classes
- Trees
- implicit abstract val NamedArgTag: ClassTag[NamedArg]
- Definition Classes
- ImplicitTags
- abstract val New: NewExtractor
The constructor/extractor for
New
instances.The constructor/extractor for
New
instances.- Definition Classes
- Trees
- implicit abstract val NewTag: ClassTag[New]
- Definition Classes
- ImplicitTags
- abstract val NoFlags: FlagSet
The empty set of flags
The empty set of flags
- Definition Classes
- FlagSets
- abstract val NoPosition: Position
A special "missing" position.
A special "missing" position.
- Definition Classes
- Positions
- abstract val NoPrefix: Type
This constant is used as a special value denoting the empty prefix in a path dependent type.
This constant is used as a special value denoting the empty prefix in a path dependent type. For instance
x.type
is represented asSingleType(NoPrefix, <x>)
, where<x>
stands for the symbol forx
.- Definition Classes
- Types
- abstract val NoSymbol: Symbol
A special "missing" symbol.
A special "missing" symbol. Commonly used in the API to denote a default or empty value.
- Definition Classes
- Symbols
- abstract val NoType: Type
This constant is used as a special value that indicates that no meaningful type exists.
This constant is used as a special value that indicates that no meaningful type exists.
- Definition Classes
- Types
- abstract val NullaryMethodType: NullaryMethodTypeExtractor
The constructor/extractor for
NullaryMethodType
instances.The constructor/extractor for
NullaryMethodType
instances.- Definition Classes
- Types
- implicit abstract val NullaryMethodTypeTag: ClassTag[NullaryMethodType]
- Definition Classes
- ImplicitTags
- abstract val PackageDef: PackageDefExtractor
The constructor/extractor for
PackageDef
instances.The constructor/extractor for
PackageDef
instances.- Definition Classes
- Trees
- implicit abstract val PackageDefTag: ClassTag[PackageDef]
- Definition Classes
- ImplicitTags
- abstract val PolyType: PolyTypeExtractor
The constructor/extractor for
PolyType
instances.The constructor/extractor for
PolyType
instances.- Definition Classes
- Types
- implicit abstract val PolyTypeTag: ClassTag[PolyType]
- Definition Classes
- ImplicitTags
- implicit abstract val PositionTag: ClassTag[Position]
- Definition Classes
- ImplicitTags
- abstract val RefTree: RefTreeExtractor
The constructor/extractor for
RefTree
instances.The constructor/extractor for
RefTree
instances.- Definition Classes
- Trees
- implicit abstract val RefTreeTag: ClassTag[RefTree]
- Definition Classes
- ImplicitTags
- abstract val ReferenceToBoxed: ReferenceToBoxedExtractor
The constructor/extractor for
ReferenceToBoxed
instances.The constructor/extractor for
ReferenceToBoxed
instances.- Definition Classes
- Internals
- implicit abstract val ReferenceToBoxedTag: ClassTag[ReferenceToBoxed]
Tag that preserves the identity of
ReferenceToBoxed
in the face of erasure.Tag that preserves the identity of
ReferenceToBoxed
in the face of erasure. Can be used for pattern matching, instance tests, serialization and the like.- Definition Classes
- Internals
- abstract val RefinedType: RefinedTypeExtractor
The constructor/extractor for
RefinedType
instances.The constructor/extractor for
RefinedType
instances.- Definition Classes
- Types
- implicit abstract val RefinedTypeTag: ClassTag[RefinedType]
- Definition Classes
- ImplicitTags
- abstract val Return: ReturnExtractor
The constructor/extractor for
Return
instances.The constructor/extractor for
Return
instances.- Definition Classes
- Trees
- implicit abstract val ReturnTag: ClassTag[Return]
- Definition Classes
- ImplicitTags
- implicit abstract val RuntimeClassTag: ClassTag[RuntimeClass]
- Definition Classes
- ImplicitTags
- implicit abstract val ScopeTag: ClassTag[Scope]
- Definition Classes
- ImplicitTags
- abstract def Select(qualifier: Tree, sym: Symbol): Select
A factory method for
Select
nodes.A factory method for
Select
nodes.- Definition Classes
- Trees
- abstract val Select: SelectExtractor
The constructor/extractor for
Select
instances.The constructor/extractor for
Select
instances.- Definition Classes
- Trees
- abstract val SelectFromTypeTree: SelectFromTypeTreeExtractor
The constructor/extractor for
SelectFromTypeTree
instances.The constructor/extractor for
SelectFromTypeTree
instances.- Definition Classes
- Trees
- implicit abstract val SelectFromTypeTreeTag: ClassTag[SelectFromTypeTree]
- Definition Classes
- ImplicitTags
- implicit abstract val SelectTag: ClassTag[Select]
- Definition Classes
- ImplicitTags
- abstract val SingleType: SingleTypeExtractor
The constructor/extractor for
SingleType
instances.The constructor/extractor for
SingleType
instances.- Definition Classes
- Types
- implicit abstract val SingleTypeTag: ClassTag[SingleType]
- Definition Classes
- ImplicitTags
- implicit abstract val SingletonTypeTag: ClassTag[SingletonType]
- Definition Classes
- ImplicitTags
- abstract val SingletonTypeTree: SingletonTypeTreeExtractor
The constructor/extractor for
SingletonTypeTree
instances.The constructor/extractor for
SingletonTypeTree
instances.- Definition Classes
- Trees
- implicit abstract val SingletonTypeTreeTag: ClassTag[SingletonTypeTree]
- Definition Classes
- ImplicitTags
- abstract val Star: StarExtractor
The constructor/extractor for
Star
instances.The constructor/extractor for
Star
instances.- Definition Classes
- Trees
- implicit abstract val StarTag: ClassTag[Star]
- Definition Classes
- ImplicitTags
- abstract val Super: SuperExtractor
The constructor/extractor for
Super
instances.The constructor/extractor for
Super
instances.- Definition Classes
- Trees
- implicit abstract val SuperTag: ClassTag[Super]
- Definition Classes
- ImplicitTags
- abstract val SuperType: SuperTypeExtractor
The constructor/extractor for
SuperType
instances.The constructor/extractor for
SuperType
instances.- Definition Classes
- Types
- implicit abstract val SuperTypeTag: ClassTag[SuperType]
- Definition Classes
- ImplicitTags
- implicit abstract val SymTreeTag: ClassTag[SymTree]
- Definition Classes
- ImplicitTags
- implicit abstract val SymbolTag: ClassTag[Symbol]
- Definition Classes
- ImplicitTags
- abstract val Template: TemplateExtractor
The constructor/extractor for
Template
instances.The constructor/extractor for
Template
instances.- Definition Classes
- Trees
- implicit abstract val TemplateTag: ClassTag[Template]
- Definition Classes
- ImplicitTags
- abstract val TermName: TermNameExtractor
The constructor/extractor for
TermName
instances.The constructor/extractor for
TermName
instances.- Definition Classes
- Names
- implicit abstract val TermNameTag: ClassTag[TermName]
- Definition Classes
- ImplicitTags
- implicit abstract val TermSymbolTag: ClassTag[TermSymbol]
- Definition Classes
- ImplicitTags
- implicit abstract val TermTreeTag: ClassTag[TermTree]
- Definition Classes
- ImplicitTags
- abstract def This(sym: Symbol): Tree
A factory method for
This
nodes.A factory method for
This
nodes.- Definition Classes
- Trees
- abstract val This: ThisExtractor
The constructor/extractor for
This
instances.The constructor/extractor for
This
instances.- Definition Classes
- Trees
- implicit abstract val ThisTag: ClassTag[This]
- Definition Classes
- ImplicitTags
- abstract val ThisType: ThisTypeExtractor
The constructor/extractor for
ThisType
instances.The constructor/extractor for
ThisType
instances.- Definition Classes
- Types
- implicit abstract val ThisTypeTag: ClassTag[ThisType]
- Definition Classes
- ImplicitTags
- abstract val Throw: ThrowExtractor
The constructor/extractor for
Throw
instances.The constructor/extractor for
Throw
instances.- Definition Classes
- Trees
- implicit abstract val ThrowTag: ClassTag[Throw]
- Definition Classes
- ImplicitTags
- implicit abstract val TreeCopierTag: ClassTag[TreeCopier]
- Definition Classes
- ImplicitTags
- implicit abstract val TreeTag: ClassTag[Tree]
- Definition Classes
- ImplicitTags
- abstract val Try: TryExtractor
The constructor/extractor for
Try
instances.The constructor/extractor for
Try
instances.- Definition Classes
- Trees
- implicit abstract val TryTag: ClassTag[Try]
- Definition Classes
- ImplicitTags
- implicit abstract val TypTreeTag: ClassTag[TypTree]
- Definition Classes
- ImplicitTags
- abstract val TypeApply: TypeApplyExtractor
The constructor/extractor for
TypeApply
instances.The constructor/extractor for
TypeApply
instances.- Definition Classes
- Trees
- implicit abstract val TypeApplyTag: ClassTag[TypeApply]
- Definition Classes
- ImplicitTags
- abstract val TypeBounds: TypeBoundsExtractor
The constructor/extractor for
TypeBounds
instances.The constructor/extractor for
TypeBounds
instances.- Definition Classes
- Types
- implicit abstract val TypeBoundsTag: ClassTag[TypeBounds]
- Definition Classes
- ImplicitTags
- abstract val TypeBoundsTree: TypeBoundsTreeExtractor
The constructor/extractor for
TypeBoundsTree
instances.The constructor/extractor for
TypeBoundsTree
instances.- Definition Classes
- Trees
- implicit abstract val TypeBoundsTreeTag: ClassTag[TypeBoundsTree]
- Definition Classes
- ImplicitTags
- abstract val TypeDef: TypeDefExtractor
The constructor/extractor for
TypeDef
instances.The constructor/extractor for
TypeDef
instances.- Definition Classes
- Trees
- implicit abstract val TypeDefTag: ClassTag[TypeDef]
- Definition Classes
- ImplicitTags
- abstract val TypeName: TypeNameExtractor
The constructor/extractor for
TypeName
instances.The constructor/extractor for
TypeName
instances.- Definition Classes
- Names
- implicit abstract val TypeNameTag: ClassTag[TypeName]
- Definition Classes
- ImplicitTags
- abstract val TypeRef: TypeRefExtractor
The constructor/extractor for
TypeRef
instances.The constructor/extractor for
TypeRef
instances.- Definition Classes
- Types
- implicit abstract val TypeRefTag: ClassTag[TypeRef]
- Definition Classes
- ImplicitTags
- implicit abstract val TypeSymbolTag: ClassTag[TypeSymbol]
- Definition Classes
- ImplicitTags
- implicit abstract val TypeTagg: ClassTag[Type]
- Definition Classes
- ImplicitTags
- abstract def TypeTree(tp: Type): TypeTree
A factory method for
TypeTree
nodes.A factory method for
TypeTree
nodes.- Definition Classes
- Trees
- abstract val TypeTree: TypeTreeExtractor
The constructor/extractor for
TypeTree
instances.The constructor/extractor for
TypeTree
instances.- Definition Classes
- Trees
- implicit abstract val TypeTreeTag: ClassTag[TypeTree]
- Definition Classes
- ImplicitTags
- abstract val Typed: TypedExtractor
The constructor/extractor for
Typed
instances.The constructor/extractor for
Typed
instances.- Definition Classes
- Trees
- implicit abstract val TypedTag: ClassTag[Typed]
- Definition Classes
- ImplicitTags
- abstract val UnApply: UnApplyExtractor
The constructor/extractor for
UnApply
instances.The constructor/extractor for
UnApply
instances.- Definition Classes
- Trees
- implicit abstract val UnApplyTag: ClassTag[UnApply]
- Definition Classes
- ImplicitTags
- abstract val ValDef: ValDefExtractor
The constructor/extractor for
ValDef
instances.The constructor/extractor for
ValDef
instances.- Definition Classes
- Trees
- implicit abstract val ValDefTag: ClassTag[ValDef]
- Definition Classes
- ImplicitTags
- implicit abstract val ValOrDefDefTag: ClassTag[ValOrDefDef]
- Definition Classes
- ImplicitTags
- abstract val WildcardType: Type
An object representing an unknown type, used during type inference.
An object representing an unknown type, used during type inference. If you see WildcardType outside of inference it is almost certainly a bug.
- Definition Classes
- Types
- implicit abstract def addFlagOps(left: FlagSet): FlagOps
The API of
FlagSet
instances.The API of
FlagSet
instances.- Definition Classes
- FlagSets
- abstract def annotationToTree(ann: Annotation): Tree
- Attributes
- protected[scala]
- Definition Classes
- Annotations
- abstract def appliedType(sym: Symbol, args: Type*): Type
- Definition Classes
- Types
- See also
- abstract def appliedType(sym: Symbol, args: List[Type]): Type
- Definition Classes
- Types
- See also
- abstract def appliedType(tycon: Type, args: Type*): Type
- Definition Classes
- Types
- See also
- abstract def appliedType(tycon: Type, args: List[Type]): Type
A creator for type applications.
A creator for type applications.
Useful to combine and create types out of generic ones. For example:
scala> val boolType = typeOf[Boolean] boolType: reflect.runtime.universe.Type = Boolean scala> val optionType = typeOf[Option[_]] optionType: reflect.runtime.universe.Type = Option[_] scala> appliedType(optionType.typeConstructor, boolType) res0: reflect.runtime.universe.Type = Option[Boolean]
- Definition Classes
- Types
- abstract def atPos[T <: Tree](pos: Position)(tree: T): T
Assigns a given position to all position-less nodes of a given AST.
Assigns a given position to all position-less nodes of a given AST.
- Definition Classes
- Positions
- abstract val definitions: DefinitionsApi
A value containing all standard definitions in DefinitionsApi
A value containing all standard definitions in DefinitionsApi
- Definition Classes
- StandardDefinitions
- abstract def glb(ts: List[Type]): Type
The greatest lower bound of a list of types, as determined by
<:<
.The greatest lower bound of a list of types, as determined by
<:<
.- Definition Classes
- Types
- abstract val internal: Internal
- Definition Classes
- Internals
- See also
- abstract def lub(xs: List[Type]): Type
The least upper bound of a list of types, as determined by
<:<
.The least upper bound of a list of types, as determined by
<:<
.- Definition Classes
- Types
- abstract def newCodePrinter(out: PrintWriter, tree: Tree, printRootPkg: Boolean): TreePrinter
Hook to define what
showCode(...)
means.Hook to define what
showCode(...)
means.- Attributes
- protected
- Definition Classes
- Printers
- abstract def newLazyTreeCopier: TreeCopier
Creates a lazy tree copier.
Creates a lazy tree copier.
- Definition Classes
- Trees
- abstract def newRawTreePrinter(out: PrintWriter): TreePrinter
Hook to define what
showRaw(...)
means.Hook to define what
showRaw(...)
means.- Attributes
- protected
- Definition Classes
- Printers
- abstract def newStrictTreeCopier: TreeCopier
Creates a strict tree copier.
Creates a strict tree copier.
- Definition Classes
- Trees
- abstract def newTreePrinter(out: PrintWriter): TreePrinter
Hook to define what
show(...)
means.Hook to define what
show(...)
means.- Attributes
- protected
- Definition Classes
- Printers
- abstract val noSelfType: ValDef
An empty deferred value definition corresponding to: val _: _ This is used as a placeholder in the
self
parameter Template if there is no definition of a self value of self type.An empty deferred value definition corresponding to: val _: _ This is used as a placeholder in the
self
parameter Template if there is no definition of a self value of self type.- Definition Classes
- Trees
- abstract val pendingSuperCall: Apply
An empty superclass constructor call corresponding to: super.<init>() This is used as a placeholder in the primary constructor body in class templates to denote the insertion point of a call to superclass constructor after the typechecker figures out the superclass of a given template.
An empty superclass constructor call corresponding to: super.<init>() This is used as a placeholder in the primary constructor body in class templates to denote the insertion point of a call to superclass constructor after the typechecker figures out the superclass of a given template.
- Definition Classes
- Trees
- abstract val rootMirror: 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.- Definition Classes
- Mirrors
- abstract def show(position: Position): String
Renders a prettified representation of a position.
Renders a prettified representation of a position.
- Definition Classes
- Printers
- abstract def show(flags: FlagSet): String
Renders a prettified representation of a flag set.
Renders a prettified representation of a flag set.
- Definition Classes
- Printers
- abstract def show(name: Name): String
Renders a prettified representation of a name.
Renders a prettified representation of a name.
- Definition Classes
- Printers
- abstract def showDecl(sym: Symbol): String
Renders a string that represents a declaration of this symbol written in Scala.
Renders a string that represents a declaration of this symbol written in Scala.
- Definition Classes
- Printers
- abstract def symbolOf[T](implicit arg0: WeakTypeTag[T]): TypeSymbol
Type symbol of
x
as derived from a type tag.Type symbol of
x
as derived from a type tag.- Definition Classes
- TypeTags
- abstract val termNames: TermNamesApi
A value containing all standard term names.
A value containing all standard term names.
- Definition Classes
- StandardNames
- abstract def treeToAnnotation(tree: Tree): Annotation
- Attributes
- protected[scala]
- Definition Classes
- Annotations
- abstract val typeNames: TypeNamesApi
A value containing all standard type names.
A value containing all standard type names.
- Definition Classes
- StandardNames
- abstract def wrappingPos(trees: List[Tree]): Position
A position that wraps the non-empty set of trees.
A position that wraps the non-empty set of trees. The point of the wrapping position is the point of the first trees' position. If all some the trees are non-synthetic, returns a range position enclosing the non-synthetic trees Otherwise returns a synthetic offset position to point.
- Definition Classes
- Positions
- abstract def wrappingPos(default: Position, trees: List[Tree]): Position
A position that wraps a set of trees.
A position that wraps a set of trees. The point of the wrapping position is the point of the default position. If some of the trees are ranges, returns a range position enclosing all ranges Otherwise returns default position.
- Definition Classes
- Positions
- abstract def Apply(sym: Symbol, args: Tree*): Tree
A factory method for
Apply
nodes.A factory method for
Apply
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"$sym(..$args)" instead
- abstract def ApplyConstructor(tpt: Tree, args: List[Tree]): Tree
0-1 argument list new, based on a type tree.
0-1 argument list new, based on a type tree.
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"new $tpt(..$args)" instead
- abstract def Bind(sym: Symbol, body: Tree): Bind
A factory method for
Bind
nodes.A factory method for
Bind
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use the canonical Bind constructor to create a bind and then initialize its symbol manually
- abstract def Block(stats: Tree*): Block
A factory method for
Block
nodes.A factory method for
Block
nodes. Flattens directly nested blocks.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"{..$stats}" instead. Flatten directly nested blocks manually if needed
- abstract def CaseDef(pat: Tree, body: Tree): CaseDef
A factory method for
CaseDef
nodes.A factory method for
CaseDef
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use cq"$pat => $body" instead
- abstract def Ident(name: String): Ident
A factory method for
Ident
nodes.A factory method for
Ident
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use Ident(TermName(name)) instead
- abstract def New(sym: Symbol, args: Tree*): Tree
0-1 argument list new, based on a symbol.
0-1 argument list new, based on a symbol.
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"new ${sym.toType}(..$args)" instead
- abstract def New(tpe: Type, args: Tree*): Tree
0-1 argument list new, based on a type.
0-1 argument list new, based on a type.
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"new $tpe(..$args)" instead
- abstract def New(tpt: Tree, argss: List[List[Tree]]): Tree
Factory method for object creation
new tpt(args_1)...(args_n)
ANew(t, as)
is expanded to:(new t).<init>(as)
Factory method for object creation
new tpt(args_1)...(args_n)
ANew(t, as)
is expanded to:(new t).<init>(as)
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"new $tpt(...$argss)" instead
- abstract def Select(qualifier: Tree, name: String): Select
A factory method for
Select
nodes. - abstract def Super(sym: Symbol, mix: TypeName): Tree
A factory method for
Super
nodes.A factory method for
Super
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"$sym.super[$mix].x".qualifier instead
- abstract def Throw(tpe: Type, args: Tree*): Throw
A factory method for
Throw
nodes.A factory method for
Throw
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) use q"throw new $tpe(..$args)" instead
- abstract def Try(body: Tree, cases: (Tree, Tree)*): Try
A factory method for
Try
nodes.A factory method for
Try
nodes.- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.10.1) convert cases into casedefs and use q"try $body catch { case ..$newcases }" instead
- abstract val compat: Compat
Provides enrichments to ensure source compatibility between Scala 2.10 and Scala 2.11.
Provides enrichments to ensure source compatibility between Scala 2.10 and Scala 2.11. If in your reflective program for Scala 2.10 you've used something that's now become an internal API, a single
compat._
import will fix things for you.- Definition Classes
- Internals
- Annotations
- @deprecated
- Deprecated
(Since version 2.13.0) compatibility with Scala 2.10 EOL
- abstract val emptyValDef: ValDef
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
noSelfType
instead
- abstract def newTermName(s: String): TermName
Create a new term name.
Create a new term name.
- Definition Classes
- Names
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use TermName instead
- abstract def newTypeName(s: String): TypeName
Creates a new type name.
Creates a new type name.
- Definition Classes
- Names
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use TypeName instead
- abstract val nme: TermNamesApi
- Definition Classes
- StandardNames
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
termNames
instead- See also
- abstract val tpnme: TypeNamesApi
- Definition Classes
- StandardNames
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
typeNames
instead- See also
- abstract val treeBuild: TreeGen
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
internal.gen
instead- See also
internal.gen
Concrete Value Members
- object Expr extends java.io.Serializable
Constructor/Extractor for Expr.
Constructor/Extractor for Expr.
Can be useful, when having a tree and wanting to splice it in reify call, in which case the tree first needs to be wrapped in an expr.
The main source of information about exprs is the scala.reflect.api.Exprs page.
- Definition Classes
- Exprs
- object Liftable extends Universe.StandardLiftableInstances
Companion to
Liftable
type class that contains standard instances and provides a helperapply
method to simplify creation of new ones.Companion to
Liftable
type class that contains standard instances and provides a helperapply
method to simplify creation of new ones.- Definition Classes
- Liftables
- object Unliftable extends Universe.StandardUnliftableInstances
Companion to
Unliftable
type class that contains standard instances and provides a helperapply
method to simplify creation of new ones.Companion to
Unliftable
type class that contains standard instances and provides a helperapply
method to simplify creation of new ones.- Definition Classes
- Liftables
- object BooleanFlag extends java.io.Serializable
- Definition Classes
- Printers
- object TypeTag extends java.io.Serializable
Type tags corresponding to primitive types and constructor/extractor for WeakTypeTags.
Type tags corresponding to primitive types and constructor/extractor for WeakTypeTags.
- Definition Classes
- TypeTags
- object WeakTypeTag extends java.io.Serializable
Type tags corresponding to primitive types and constructor/extractor for WeakTypeTags.
Type tags corresponding to primitive types and constructor/extractor for WeakTypeTags.
- Definition Classes
- TypeTags
- final def !=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- final def ##(): Int
- Definition Classes
- AnyRef → Any
- def +(other: String): String
- def ->[B](y: B): (Universe, B)
- final def ==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- def Modifiers(flags: FlagSet): Modifiers
The factory for
Modifiers
instances.The factory for
Modifiers
instances.- Definition Classes
- Trees
- def Modifiers(flags: FlagSet, privateWithin: Name): Modifiers
The factory for
Modifiers
instances.The factory for
Modifiers
instances.- Definition Classes
- Trees
- lazy val NoMods: Modifiers
An empty
Modifiers
object: no flags, empty visibility annotation and no Scala annotations.An empty
Modifiers
object: no flags, empty visibility annotation and no Scala annotations.- Definition Classes
- Trees
- final def asInstanceOf[T0]: T0
- Definition Classes
- Any
- def clone(): AnyRef
- Attributes
- protected[java.lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.CloneNotSupportedException]) @native()
- def ensuring(cond: (Universe) => Boolean, msg: => Any): Universe
- def ensuring(cond: (Universe) => Boolean): Universe
- def ensuring(cond: Boolean, msg: => Any): Universe
- def ensuring(cond: Boolean): Universe
- final def eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- def equals(arg0: AnyRef): 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[_ <: AnyRef]
- Definition Classes
- AnyRef → Any
- Annotations
- @native()
- def hashCode(): Int
- Definition Classes
- AnyRef → Any
- Annotations
- @native()
- final def isInstanceOf[T0]: Boolean
- Definition Classes
- Any
- def itransform(transformer: Transformer, tree: Tree): Tree
Delegates the transformation strategy to
scala.reflect.internal.Trees
, because pattern matching on abstract types we have here degrades performance.Delegates the transformation strategy to
scala.reflect.internal.Trees
, because pattern matching on abstract types we have here degrades performance.- Attributes
- protected
- Definition Classes
- Trees
- final def ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- final def notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native()
- final def notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native()
- macro def reify[T](expr: T): Expr[T]
Use
reify
to produce the abstract syntax tree representing a given Scala expression.Use
reify
to produce the abstract syntax tree representing a given Scala expression.For example:
val five = reify{ 5 } // Literal(Constant(5)) reify{ 5.toString } // Apply(Select(Literal(Constant(5)), TermName("toString")), List()) reify{ five.splice.toString } // Apply(Select(five, TermName("toString")), List())
The produced tree is path dependent on the Universe
reify
was called from.Use scala.reflect.api.Exprs#Expr.splice to embed an existing expression into a
reify
call. Use Expr to turn a Tree into an expression that can be spliced.- Definition Classes
- Universe
- def render(what: Any, mkPrinter: (PrintWriter) => TreePrinter, printTypes: BooleanFlag = None, printIds: BooleanFlag = None, printOwners: BooleanFlag = None, printKinds: BooleanFlag = None, printMirrors: BooleanFlag = None, printPositions: BooleanFlag = None): String
- Attributes
- protected
- Definition Classes
- Printers
- def show(any: Any, printTypes: BooleanFlag = None, printIds: BooleanFlag = None, printOwners: BooleanFlag = None, printKinds: BooleanFlag = None, printMirrors: BooleanFlag = None, printPositions: BooleanFlag = None): String
Renders a representation of a reflection artifact as desugared Scala code.
Renders a representation of a reflection artifact as desugared Scala code.
- Definition Classes
- Printers
- def showCode(tree: Tree, printTypes: BooleanFlag = None, printIds: BooleanFlag = None, printOwners: BooleanFlag = None, printPositions: BooleanFlag = None, printRootPkg: Boolean = false): String
Renders the code of the passed tree, so that: 1) it can be later compiled by scalac retaining the same meaning, 2) it looks pretty.
Renders the code of the passed tree, so that: 1) it can be later compiled by scalac retaining the same meaning, 2) it looks pretty. #1 is available for unattributed trees and attributed trees #2 is more or less okay indentation-wise, but at the moment there's a lot of desugaring left in place, and that's what we plan to improve in the future. printTypes, printIds, printPositions options have the same meaning as for TreePrinter printRootPkg option is available only for attributed trees.
- Definition Classes
- Printers
- def showRaw(position: Position): String
Renders internal structure of a position.
Renders internal structure of a position.
- Definition Classes
- Printers
- def showRaw(flags: FlagSet): String
Renders internal structure of a flag set.
Renders internal structure of a flag set.
- Definition Classes
- Printers
- def showRaw(name: Name): String
Renders internal structure of a name.
Renders internal structure of a name.
- Definition Classes
- Printers
- def showRaw(any: Any, printTypes: BooleanFlag = None, printIds: BooleanFlag = None, printOwners: BooleanFlag = None, printKinds: BooleanFlag = None, printMirrors: BooleanFlag = None, printPositions: BooleanFlag = None): String
Renders internal structure of a reflection artifact as the visualization of a Scala syntax tree.
Renders internal structure of a reflection artifact as the visualization of a Scala syntax tree.
- Definition Classes
- Printers
- final def synchronized[T0](arg0: => T0): T0
- Definition Classes
- AnyRef
- def toString(): String
- Definition Classes
- AnyRef → Any
- val treeCopy: TreeCopier
The standard (lazy) tree copier.
The standard (lazy) tree copier.
- Definition Classes
- Trees
- def treeToString(tree: Tree): String
By default trees are printed with
show
By default trees are printed with
show
- Attributes
- protected
- Definition Classes
- Printers
- def typeOf[T](implicit ttag: TypeTag[T]): Type
Shortcut for
implicitly[TypeTag[T]].tpe
Shortcut for
implicitly[TypeTag[T]].tpe
- Definition Classes
- TypeTags
- def typeTag[T](implicit ttag: TypeTag[T]): TypeTag[T]
Shortcut for
implicitly[TypeTag[T]]
Shortcut for
implicitly[TypeTag[T]]
- Definition Classes
- TypeTags
- final def wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException]) @native()
- def weakTypeOf[T](implicit attag: WeakTypeTag[T]): Type
Shortcut for
implicitly[WeakTypeTag[T]].tpe
Shortcut for
implicitly[WeakTypeTag[T]].tpe
- Definition Classes
- TypeTags
- def weakTypeTag[T](implicit attag: WeakTypeTag[T]): WeakTypeTag[T]
Shortcut for
implicitly[WeakTypeTag[T]]
Shortcut for
implicitly[WeakTypeTag[T]]
- Definition Classes
- TypeTags
- def xtransform(transformer: Transformer, tree: Tree): Tree
Provides an extension hook for the transformation strategy.
Provides an extension hook for the transformation strategy. Future-proofs against new node types.
- Attributes
- protected
- Definition Classes
- Trees
Deprecated Value Members
- def itraverse(traverser: Traverser, tree: Tree): Unit
Delegates the traversal strategy to
scala.reflect.internal.Trees
, because pattern matching on abstract types we have here degrades performance.Delegates the traversal strategy to
scala.reflect.internal.Trees
, because pattern matching on abstract types we have here degrades performance.- Attributes
- protected
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.12.3) Use Tree#traverse instead
- def mkImporter(from0: api.Universe): Importer { val from: from0.type }
- Definition Classes
- Internals
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use
internal.createImporter
instead
- implicit def stringToTermName(s: String): TermName
An implicit conversion from String to TermName.
An implicit conversion from String to TermName. Enables an alternative notation
"map": TermName
as opposed toTermName("map")
.- Definition Classes
- Names
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use explicit
TermName(s)
instead
- implicit def stringToTypeName(s: String): TypeName
An implicit conversion from String to TypeName.
An implicit conversion from String to TypeName. Enables an alternative notation
"List": TypeName
as opposed toTypeName("List")
.- Definition Classes
- Names
- Annotations
- @deprecated
- Deprecated
(Since version 2.11.0) use explicit
TypeName(s)
instead
- def xtraverse(traverser: Traverser, tree: Tree): Unit
Provides an extension hook for the traversal strategy.
Provides an extension hook for the traversal strategy. Future-proofs against new node types.
- Attributes
- protected
- Definition Classes
- Trees
- Annotations
- @deprecated
- Deprecated
(Since version 2.12.3) Use Tree#traverse instead
- def →[B](y: B): (Universe, B)
- Implicit
- This member is added by an implicit conversion from Universe toArrowAssoc[Universe] performed by method ArrowAssoc in scala.Predef.
- Definition Classes
- ArrowAssoc
- Annotations
- @deprecated
- Deprecated
(Since version 2.13.0) Use
->
instead. If you still wish to display it as one character, consider using a font with programming ligatures such as Fira Code.