scala.annotation
Type members
Classlikes
A base class for annotations.
A base class for annotations.
Annotations extending this class directly are not preserved in the classfile. To enable storing annotations in the classfile's Scala signature and make it available to Scala reflection and other tools, the annotation needs to inherit from scala.annotation.StaticAnnotation.
Annotation classes defined in Scala are not stored in classfiles in a Java-compatible manner and therefore not visible in Java reflection. In order to achieve this, the annotation has to be written in Java.
Annotation classes extending this trait only accept constant values as arguments.
Annotation classes extending this trait only accept constant values as arguments.
Note that this trait extends StaticAnnotation, so constant annotations are persisted in the classfile.
The implementation requires arguments of constant annotations to be passed as named arguments,
except if there is a single argument, which then defines the annotation's parameter named
value
.
Constant annotations may use default arguments. Note that the internal representation of an annotation usage (which is visible for compiler plugins, for example) only contains arguments that are explicitly provided.
Constant annotations are not allowed to define auxiliary constructors, and the primary constructor is required to have a single parameter list.
Example:
class Ann(value: Int, x: Int = 0) extends scala.annotation.ConstantAnnotation
class Test {
def someInt = 0
@Ann(value = 0, x = 1) def g = 0
@Ann(0) def f = 0 // Internal representation contains `@Ann(value = 0)`
@Ann(someInt) // error: argument needs to be a compile-time constant
}
A base trait for annotations that yield proper subtypes of the types they annotate.
A base trait for annotations that yield proper subtypes of the types they annotate. Refining annotations are more "sticky" than normal ones. They are conceptually kept around when normal refinements would also not be stripped away.
A base class for static annotations.
A base class for static annotations. These are available to the Scala type checker or Scala reflection, even across different compilation units.
Annotation classes defined in Scala are not stored in classfiles in a Java-compatible manner and therefore not visible in Java reflection. In order to achieve this, the annotation has to be written in Java.
A marker for annotations that, when applied to a type, should be treated as a constraint on the annotated type.
A marker for annotations that, when applied to a type, should be treated as a constraint on the annotated type.
A proper constraint should restrict the type based only on information mentioned within the type. A Scala compiler can use this assumption to rewrite the contents of the constraint as necessary. To contrast, a type annotation whose meaning depends on the context where it is written down is not a proper constrained type, and this marker should not be applied. A Scala compiler will drop such annotations in cases where it would rewrite a type constraint.
An annotation that designates that an annottee should not be referred to after type checking (which includes macro expansion).
An annotation that designates that an annottee should not be referred to after type checking (which includes macro expansion).
Examples of potential use: 1) The annottee can only appear in the arguments of some other macro that will eliminate it from the AST during expansion. 2) The annottee is a macro and should have been expanded away, so if hasn't, something wrong has happened. (Comes in handy to provide better support for new macro flavors, e.g. macro annotations, that can't be expanded by the vanilla compiler).
- Value Params
- message
the error message to print during compilation if a reference remains after type checking
An annotation that goes on parameters of classes or traits.
An annotation that goes on parameters of classes or traits. It asserts that the parameter is used only for initialization and is not kept in the class as a field. Violations of this assertion are flagged as compile errors. The annotation is particularly useful for implicit parameters since for these a textual scan is not sufficient to know where they are used.
An annotation for methods whose bodies may be excluded from compiler-generated bytecode.
An annotation for methods whose bodies may be excluded from compiler-generated bytecode.
Behavior is influenced by passing -Xelide-below
to scalac
.
Calls to methods marked elidable (as well as the method body) will
be omitted from generated code if the priority given the annotation
is lower than that given on the command line.
@elidable(123) // annotation priority
scalac -Xelide-below 456 // command line priority
The method call will be replaced with an expression which depends on the type of the elided expression. In decreasing order of precedence:
Unit ()
Boolean false
T <: AnyVal 0
T >: Null null
T >: Nothing Predef.???
Complete example:
import scala.annotation._, elidable._
object Test extends App {
def expensiveComputation(): Int = { Thread.sleep(1000) ; 172 }
@elidable(WARNING) def warning(msg: String) = println(msg)
@elidable(FINE) def debug(msg: String) = println(msg)
@elidable(FINE) def computedValue = expensiveComputation()
warning("Warning! Danger! Warning!")
debug("Debug! Danger! Debug!")
println("I computed a value: " + computedValue)
}
% scalac example.scala && scala Test
Warning! Danger! Warning!
Debug! Danger! Debug!
I computed a value: 172
// INFO lies between WARNING and FINE
% scalac -Xelide-below INFO example.scala && scala Test
Warning! Danger! Warning!
I computed a value: 0
Note that only concrete methods can be marked @elidable
. A non-annotated method
is not elided, even if it overrides / implements a method that has the annotation.
Also note that the static type determines which annotations are considered:
import scala.annotation._, elidable._
class C { @elidable(0) def f(): Unit = ??? }
object O extends C { override def f(): Unit = println("O.f") }
object Test extends App {
O.f() // not elided
(O: C).f() // elided if compiled with `-Xelide-below 1`
}
- Companion
- object
This useless appearing code was necessary to allow people to use named constants for the elidable annotation.
This useless appearing code was necessary to allow people to use named constants for the elidable annotation. This is what it takes to convince the compiler to fold the constants: otherwise when it's time to check an elision level it's staring at a tree like
(Select(Level, Select(FINEST, Apply(intValue, Nil))))
instead of the number 300
.
- Companion
- class
To customize the error message that's emitted when an implicit search finds
multiple ambiguous values, annotate at least one of the implicit values
@implicitAmbiguous
.
To customize the error message that's emitted when an implicit search finds
multiple ambiguous values, annotate at least one of the implicit values
@implicitAmbiguous
. Assuming the implicit value is a method with type
parameters X1,..., XN
, the error message will be the result of replacing
all occurrences of ${Xi}
in the string msg
with the string representation
of the corresponding type argument Ti
.
If more than one @implicitAmbiguous
annotation is collected, the compiler is
free to pick any of them to display.
Nice errors can direct users to fix imports or even tell them why code intentionally doesn't compile.
trait =!=[C, D]
implicit def neq[E, F] : E =!= F = null
@annotation.implicitAmbiguous("Could not prove ${J} =!= ${J}")
implicit def neqAmbig1[G, H, J] : J =!= J = null
implicit def neqAmbig2[I] : I =!= I = null
implicitly[Int =!= Int]
To customize the error message that's emitted when an implicit of type
C[T1,..., TN]
cannot be found, annotate the class C
with @implicitNotFound
.
To customize the error message that's emitted when an implicit of type
C[T1,..., TN]
cannot be found, annotate the class C
with @implicitNotFound
.
Assuming C
has type parameters X1, ..., XN
, the error message will be the
result of replacing all occurrences of ${Xi}
in the string msg
with the
string representation of the corresponding type argument Ti
.
The annotation is effectively inherited by subtypes if they are not annotated.
The annotation can also be attached to implicit parameters. In this case, ${Xi}
can refer to type parameters in the current scope. The @implicitNotFound
message
on the parameter takes precedence over the one on the parameter's type.
import scala.annotation.implicitNotFound
@implicitNotFound("Could not find an implicit C[${T}, ${U}]")
class C[T, U]
class K[A] {
def m[B](implicit c: C[List[A], B]) = 0
def n[B](implicit @implicitNotFound("Specific message for C of list of ${A} and ${B}") c: C[List[A], B]) = 1
}
object Test {
val k = new K[Int]
k.m[String]
k.n[String]
}
The compiler issues the following error messages:
Test.scala:13: error: Could not find an implicit C[List[Int], String]
k.m[String]
^
Test.scala:14: error: Specific message for C of list of Int and String
k.n[String]
^
An annotation for local warning suppression.
An annotation for local warning suppression.
The optional value
parameter allows selectively silencing messages, see scalac -Wconf:help
for help. Examples:
def f = {
1: @nowarn // don't warn "a pure expression does nothing in statement position"
2
}
@nowarn def f = { 1; deprecated() } // don't warn
@nowarn("msg=pure expression does nothing")
def f = { 1; deprecated() } // show deprecation warning
To ensure that a @nowarn
annotation actually suppresses a warning, enable -Xlint:unused
or -Wunused:nowarn
.
The unused annotation warning is emitted in category unused-nowarn
and can be selectively managed
using -Wconf:cat=unused-nowarn:s
.
This annotation configures how Scala prints two-parameter generic types.
This annotation configures how Scala prints two-parameter generic types.
By default, types with symbolic names are printed infix; while types without them are printed using the regular generic type syntax.
Example of usage:
scala> class Map[T, U]
defined class Map
scala> def foo: Int Map Int = ???
foo: Map[Int,Int]
scala> @showAsInfix class Map[T, U]
defined class Map
scala> def foo: Int Map Int = ???
foo: Int Map Int
- Value Params
- enabled
whether to show this type as an infix type operator.
https://github.com/scala/scala.github.com/pull/491
https://github.com/scala/scala.github.com/pull/491
If this annotation is present on a method or its enclosing class, the strictfp flag will be emitted.
If this annotation is present on a method or its enclosing class, the strictfp flag will be emitted.
An annotation to be applied to a match expression.
An annotation to be applied to a match expression. If present, the compiler will verify that the match has been compiled to a tableswitch or lookupswitch and issue a warning if it instead compiles into a series of conditional expressions. Example usage:
val Constant = 'Q'
def tokenMe(ch: Char) = (ch: @switch) match {
case ' ' | '\t' | '\n' => 1
case 'A' | 'Z' | '$' => 2
case '5' | Constant => 3 // a non-literal may prevent switch generation: this would not compile
case _ => 4
}
Note: for pattern matches with one or two cases, the compiler generates jump instructions.
Annotating such a match with @switch
does not issue any warning.
A method annotation which verifies that the method will be compiled with tail call optimization.
A method annotation which verifies that the method will be compiled with tail call optimization.
If it is present, the compiler will issue an error if the method cannot be optimized into a loop.
An annotation that defines an external name for a definition.
An annotation that defines an external name for a definition.
If an targetName(extname)
annotation is given for a method or some other
definition, its implementation will use the name extname
instead of
the regular name.
This annotation can only be used on a field which defines a lazy val.
This annotation can only be used on a field which defines a lazy val. When this annotation is used, the initialization of the lazy val will use a faster mechanism which is not thread-safe.
An annotation that can be used from Scala 2 to mark a trait as transparent.
An annotation that can be used from Scala 2 to mark a trait as transparent.
Scala 3 code would use the modifier transparent
instead. Transparent traits
are not inferred when combined with other types in an intersection.
See reference/other-new-features/transparent-traits.html for details.
A method annotation which suppresses the creation of additional specialized forms based on enclosing specialized type parameters.
A method annotation which suppresses the creation of additional specialized forms based on enclosing specialized type parameters.
Mark an element unused for a given context.
Mark an element unused for a given context.
Unused warnings are suppressed for elements known to be unused.
For example, a method parameter may be marked @unused
because the method is designed to be overridden by
an implementation that does use the parameter.
Deprecated classlikes
A base class for classfile annotations.
A base class for classfile annotations. These are stored as Java annotations] in classfiles.
- Deprecated
An annotation that defines an external name for a definition.
An annotation that defines an external name for a definition.
If an alpha(extname)
annotation is given for a method or some other
definition, its implementation will use the name extname
instead of
the regular name. An alpha
annotation is mandatory for definitions
with symbolic names.
- Deprecated