trait InteractiveAnalyzer extends Analyzer
- Source
- Global.scala
- Alphabetic
- By Inheritance
- InteractiveAnalyzer
- Analyzer
- AnalyzerPlugins
- StdAttachments
- ContextErrors
- TypeDiagnostics
- NamesDefaults
- Macros
- Helpers
- Traces
- MacroRuntimes
- JavaReflectionRuntimes
- Unapplies
- SyntheticMethods
- TreeDSL
- EtaExpansion
- Implicits
- Infer
- Checkable
- Typers
- PatternTypers
- TypersTracking
- Tags
- Adaptations
- Namers
- MethodSynthesis
- Contexts
- AnyRef
- Any
- by any2stringadd
- by StringFormat
- by Ensuring
- by ArrowAssoc
- Hide All
- Show All
- Public
- All
Type Members
-
trait
JavaReflectionResolvers extends AnyRef
- Definition Classes
- JavaReflectionRuntimes
-
class
MacroRuntimeResolver extends tools.nsc.typechecker.Analyzer.JavaReflectionResolvers
- Definition Classes
- MacroRuntimes
-
type
ImportType = Global.ImportType
- Definition Classes
- Contexts
- trait InteractiveNamer extends Namer
- trait InteractiveTyper extends Typer
-
type
MacroContext = UnaffiliatedMacroContext { val universe: InteractiveAnalyzer.this.global.type }
- Definition Classes
- StdAttachments
-
type
MacroRuntime = (MacroArgs) ⇒ Any
Abstracts away resolution of macro runtimes.
Abstracts away resolution of macro runtimes.
- Definition Classes
- MacroRuntimes
-
type
UnaffiliatedMacroContext = reflect.macros.contexts.Context
Carries information necessary to expand the host tree.
Carries information necessary to expand the host tree. At times we need to store this info, because macro expansion can be delayed until its targs are inferred. After a macro application has been successfully expanded, this attachment is destroyed.
- Definition Classes
- StdAttachments
-
trait
Adaptation extends AnyRef
- Definition Classes
- Adaptations
-
trait
AnalyzerPlugin extends AnyRef
- Definition Classes
- AnalyzerPlugins
-
trait
MacroPlugin extends AnyRef
- Definition Classes
- AnalyzerPlugins
-
trait
InferCheckable extends AnyRef
- Definition Classes
- Checkable
-
abstract
class
AbsAmbiguousTypeError extends Analyzer.AbsTypeError
- Definition Classes
- ContextErrors
-
sealed abstract
class
AbsTypeError extends AnyRef
- Definition Classes
- ContextErrors
-
case class
AccessTypeError(underlyingTree: Global.Tree, errMsg: String) extends Analyzer.TreeTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
case class
AmbiguousImplicitTypeError(underlyingTree: Global.Tree, errMsg: String) extends Analyzer.AbsAmbiguousTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
case class
AmbiguousTypeError(errPos: Global.Position, errMsg: String) extends Analyzer.AbsAmbiguousTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
case class
DivergentImplicitTypeError(underlyingTree: Global.Tree, pt0: Global.Type, sym: Global.Symbol) extends Analyzer.TreeTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
trait
ImplicitsContextErrors extends AnyRef
- Definition Classes
- ContextErrors
-
trait
InferencerContextErrors extends AnyRef
- Definition Classes
- ContextErrors
-
trait
NamerContextErrors extends AnyRef
- Definition Classes
- ContextErrors
-
case class
NormalTypeError(underlyingTree: Global.Tree, errMsg: String) extends Analyzer.TreeTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
class
NormalTypeErrorFromCyclicReference extends Analyzer.NormalTypeError
Marks a TypeError that was constructed from a CyclicReference (under silent).
Marks a TypeError that was constructed from a CyclicReference (under silent). This is used for named arguments, where we need to know if an assignment expression failed with a cyclic reference or some other type error.
- Definition Classes
- ContextErrors
-
case class
PosAndMsgTypeError(errPos: Global.Position, errMsg: String) extends Analyzer.AbsTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
case class
SymbolTypeError(underlyingSym: Global.Symbol, errMsg: String) extends Analyzer.AbsTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
sealed abstract
class
TreeTypeError extends Analyzer.AbsTypeError
- Definition Classes
- ContextErrors
-
case class
TypeErrorWithUnderlyingTree(tree: Global.Tree, ex: Global.TypeError) extends Analyzer.AbsTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
case class
TypeErrorWrapper(ex: Global.TypeError) extends Analyzer.AbsTypeError with Product with Serializable
- Definition Classes
- ContextErrors
-
trait
TyperContextErrors extends AnyRef
- Definition Classes
- ContextErrors
-
class
Context extends AnyRef
A motley collection of the state and loosely associated behaviour of the type checker.
A motley collection of the state and loosely associated behaviour of the type checker. Each
Typerhas an associated context, and as it descends into the tree new(Typer, Context)pairs are spawned.Meet the crew; first the state:
- A tree, symbol, and scope representing the focus of the typechecker
- An enclosing context,
outer. - The current compilation unit.
- A variety of bits that track the current error reporting policy (more on this later);
whether or not implicits/macros are enabled, whether we are in a self or super call or
in a constructor suffix. These are represented as bits in the mask
contextMode. - Some odds and ends: undetermined type parameters of the current line of type inference; contextual augmentation for error messages, tracking of the nesting depth.
And behaviour:
- The central point for issuing errors and warnings from the typechecker, with a means to buffer these for use in 'silent' type checking, when some recovery might be possible.
-
Contextis something of a Zipper for the tree were are typechecking: itenclosingContextChainis the path back to the root. This is exactly what we need to resolve names (lookupSymbol) and to collect in-scope implicit definitions (implicitss) Supporting these areimports, which represents allImporttrees in in the enclosing context chain. - In a similar vein, we can assess accessibility (
isAccessible.)
More on error buffering: When are type errors recoverable? In quite a few places, it turns out. Some examples: trying to type an application with/without the expected type, or with/without implicit views enabled. This is usually mediated by
Typer.silent,Inferencer#tryTwice.Initially, starting from the
typerphase, the contexts either buffer or report errors; afterwards errors are thrown. This is configured inrootContext. Additionally, more fine grained control is needed based on the kind of error; ambiguity errors are often suppressed during exploratory typing, such as determining whethera == bin an argument position is an assignment or a named argument, whenInferencer#isApplicableSafetype checks applications with and without an expected type, or whenTyper#tryTypedApplytries to fit arguments to a function type with/without implicit views.When the error policies entail error/warning buffering, the mutable ReportBuffer records everything that is issued. It is important to note, that child Contexts created with
make"inherit" the very sameReportBufferinstance, whereas children spawned throughmakeSilentreceive a separate, fresh buffer.- Definition Classes
- Contexts
-
abstract
class
ContextReporter extends AnyRef
A reporter for use during type checking.
A reporter for use during type checking. It has multiple modes for handling errors.
The default (immediate mode) is to send the error to the global reporter. When switched into buffering mode via makeBuffering, errors and warnings are buffered and not be reported (there's a special case for ambiguity errors for some reason: those are force to the reporter when context.ambiguousErrors, or else they are buffered -- TODO: can we simplify this?)
When using the type checker after typers, an error results in a TypeError being thrown. TODO: get rid of this mode.
To handle nested contexts, reporters share buffers. TODO: only buffer in BufferingReporter, emit immediately in ImmediateReporter
- Definition Classes
- Contexts
-
final
class
ImportContext extends Analyzer.Context
A
Contextfocussed on anImporttreeA
Contextfocussed on anImporttree- Definition Classes
- Contexts
-
class
ImportInfo extends AnyRef
- Definition Classes
- Contexts
-
class
ImplicitAnnotationMsg extends AnyRef
- Definition Classes
- Implicits
-
class
ImplicitInfo extends AnyRef
A class that records an available implicit
A class that records an available implicit
- Definition Classes
- Implicits
-
class
ImplicitSearch extends Analyzer.Typer with Analyzer.ImplicitsContextErrors
A class that sets up an implicit search.
A class that sets up an implicit search. For more info, see comments for
inferImplicit.- Definition Classes
- Implicits
-
class
Message extends AnyRef
- Definition Classes
- Implicits
-
case class
OpenImplicit(info: Analyzer.ImplicitInfo, pt: Global.Type, tree: Global.Tree) extends Product with Serializable
A class which is used to track pending implicits to prevent infinite implicit searches.
A class which is used to track pending implicits to prevent infinite implicit searches.
- Definition Classes
- Implicits
-
class
SearchResult extends AnyRef
The result of an implicit search
The result of an implicit search
- Definition Classes
- Implicits
-
final
case class
AdjustedTypeArgs(okParams: List[Global.Symbol], okArgs: List[Global.Type], undetParams: List[Global.Symbol], allArgs: List[Global.Type]) extends Product with Serializable
- Definition Classes
- Infer
-
abstract
class
Inferencer extends Analyzer.InferencerContextErrors with Analyzer.InferCheckable
The context-dependent inferencer part
The context-dependent inferencer part
- Definition Classes
- Infer
-
class
NoInstance extends Throwable with ControlThrowable
- Definition Classes
- Infer
-
class
DefMacroExpander extends Analyzer.MacroExpander
Expands a term macro used in apply role as
M(2)(3)inval x = M(2)(3).Expands a term macro used in apply role as
M(2)(3)inval x = M(2)(3).- Definition Classes
- Macros
-
case class
Delayed(delayed: Global.Tree) extends Analyzer.MacroStatus with Product with Serializable
- Definition Classes
- Macros
-
case class
Failure(failure: Global.Tree) extends Analyzer.MacroStatus with Product with Serializable
- Definition Classes
- Macros
-
case class
Fallback(fallback: Global.Tree) extends Analyzer.MacroStatus with Product with Serializable
- Definition Classes
- Macros
-
case class
MacroArgs(c: Analyzer.MacroContext, others: List[Any]) extends Product with Serializable
Calculate the arguments to pass to a macro implementation when expanding the provided tree.
Calculate the arguments to pass to a macro implementation when expanding the provided tree.
- Definition Classes
- Macros
-
abstract
class
MacroExpander extends AnyRef
Performs macro expansion:
Performs macro expansion:
Expandable trees
A term of one of the following shapes:
Ident(<term macro>) Select(<any qualifier>, <term macro>) TypeApply(<any of the above>, <targs>) Apply(...Apply(<any of the above>, <args1>)...<argsN>)
Macro expansion
First of all
macroExpandXXX: 1) If necessary desugars theexpandeeto fit into the default expansion scheme that is understood bymacroExpandWithRuntime/macroExpandWithoutRuntimeThen
macroExpandWithRuntime: 2) Checks whether the expansion needs to be delayed 3) Loads macro implementation usingmacroMirror4) Synthesizes invocation arguments for the macro implementation 5) Checks that the result is a tree or an expr bound to this universeFinally
macroExpandXXX: 6) Validates the expansion against the white list of supported tree shapes 7) Typechecks the result as required by the circumstances of the macro applicationIf -Ymacro-debug-lite is enabled, you will get basic notifications about macro expansion along with macro expansions logged in the form that can be copy/pasted verbatim into REPL.
If -Ymacro-debug-verbose is enabled, you will get detailed log of how exactly this function performs class loading and method resolution in order to load the macro implementation. The log will also include other non-trivial steps of macro expansion.
- returns
the expansion result if the expansion has been successful, the fallback tree if the expansion has been unsuccessful, but there is a fallback, the expandee unchanged if the expansion has been delayed, the expandee fully expanded if the expansion has been delayed before and has been expanded now, the expandee with an error marker set if the expansion has been cancelled due malformed arguments or implementation the expandee with an error marker set if there has been an error
- Definition Classes
- Macros
-
case class
MacroImplBinding(isBundle: Boolean, isBlackbox: Boolean, className: String, methName: String, signature: List[List[Fingerprint]], targs: List[Global.Tree]) extends Product with Serializable
Represents all the information that a macro definition needs to know about its implementation.
Represents all the information that a macro definition needs to know about its implementation. Includes a path to load the implementation via Java reflection, and various accounting information necessary when composing an argument list for the reflective invocation.
- Definition Classes
- Macros
-
sealed abstract
class
MacroStatus extends AnyRef
- Definition Classes
- Macros
-
case class
Skipped(skipped: Global.Tree) extends Analyzer.MacroStatus with Product with Serializable
- Definition Classes
- Macros
-
case class
Success(expanded: Global.Tree) extends Analyzer.MacroStatus with Product with Serializable
- Definition Classes
- Macros
-
class
ClassMethodSynthesis extends AnyRef
- Definition Classes
- MethodSynthesis
-
trait
MethodSynth extends AnyRef
There are two key methods in here.
There are two key methods in here.
1) Enter methods such as enterGetterSetter are called from Namer with a tree which may generate further trees such as accessors or implicit wrappers. Some setup is performed. In general this creates symbols and enters them into the scope of the owner.
2) addDerivedTrees is called from Typer when a Template is typed. It completes the job, returning a list of trees with their symbols set to those created in the enter methods. Those trees then become part of the typed template.
- Definition Classes
- MethodSynthesis
-
class
CompleterWrapper extends Analyzer.TypeCompleter
Wrap an existing completer to do some post/pre-processing of the completed type.
Wrap an existing completer to do some post/pre-processing of the completed type.
- Definition Classes
- Namers
-
trait
LockingTypeCompleter extends Analyzer.TypeCompleter
- Definition Classes
- Namers
-
abstract
class
Namer extends Analyzer.MethodSynth with Analyzer.NamerContextErrors
- Definition Classes
- Namers
-
class
PolyTypeCompleter extends Analyzer.TypeCompleter with Analyzer.LockingTypeCompleter with Global.FlagAgnosticCompleter
A class representing a lazy type with known type parameters.
A class representing a lazy type with known type parameters.
ctxis the namer context in which theowneris defined.Constructing a PolyTypeCompleter for a DefDef creates type skolems for the type parameters and assigns them to the
tparamstrees.- Definition Classes
- Namers
-
abstract
class
TypeCompleter extends Global.LazyType
- Definition Classes
- Namers
-
abstract
class
TypeCompleterBase[T <: Global.Tree] extends Analyzer.TypeCompleter with Analyzer.LockingTypeCompleter with Global.FlagAgnosticCompleter
- Definition Classes
- Namers
-
class
CaseApplyDefaultGetters extends AnyRef
- Definition Classes
- NamesDefaults
-
class
ConstructorDefaultsAttachment extends AnyRef
- Definition Classes
- NamesDefaults
-
class
DefaultsOfLocalMethodAttachment extends AnyRef
- Definition Classes
- NamesDefaults
-
case class
NamedApplyInfo(qual: Option[Global.Tree], targs: List[Global.Tree], vargss: List[List[Global.Tree]], blockTyper: Analyzer.Typer) extends Product with Serializable
- Definition Classes
- NamesDefaults
-
trait
PatternTyper extends AnyRef
- Definition Classes
- PatternTypers
-
case class
MacroExpanderAttachment(original: Global.Tree, desugared: Global.Tree) extends Product with Serializable
Scratchpad for the macro expander, which is used to store all intermediate data except the details about the runtime.
Scratchpad for the macro expander, which is used to store all intermediate data except the details about the runtime.
- Definition Classes
- StdAttachments
-
case class
MacroExpansionAttachment(expandee: Global.Tree, expanded: Any) extends Product with Serializable
Is added by the macro engine to originals and results of macro expansions.
Is added by the macro engine to originals and results of macro expansions. Stores the original expandee as it entered the
macroExpandfunction.- Definition Classes
- StdAttachments
-
case class
MacroRuntimeAttachment(delayed: Boolean, typerContext: Analyzer.Context, macroContext: Option[Analyzer.MacroContext]) extends Product with Serializable
- Definition Classes
- StdAttachments
-
case class
OriginalTreeAttachment(original: Global.Tree) extends Product with Serializable
Marks a tree that has been adapted by typer and sets the original tree that was in place before.
Marks a tree that has been adapted by typer and sets the original tree that was in place before.
Keeping track of the original trees were is an important feature for some compiler plugins (like Scalameta) and the incremental compiler (Zinc). In both cases, adapting trees loses information in some sense and do not allow external tools to capture some information stored in user-defined trees that are optimized away by early phases (mostly, typer).
See how the absence of this attachment blocks Zinc: https://github.com/sbt/zinc/issues/227. Related: https://github.com/scala/scala-dev/issues/340.
This attachment is, at the moment, only used to keep track of constant-folded constants. It has a generic wording in the hope that in the future can be reused in the same context to keep track of other adapted trees.
- Definition Classes
- StdAttachments
-
case class
SuperArgsAttachment(argss: List[List[Global.Tree]]) extends Product with Serializable
After being synthesized by the parser, primary constructors aren't fully baked yet.
After being synthesized by the parser, primary constructors aren't fully baked yet. A call to super in such constructors is just a fill-me-in-later dummy resolved later by
parentTypes. This attachment coordinatesparentTypesandtypedTemplateand allows them to complete the synthesis.- Definition Classes
- StdAttachments
-
trait
Tag extends AnyRef
- Definition Classes
- Tags
-
case class
TypeDiag(tp: Global.Type, sym: Global.Symbol) extends Ordered[(TypeDiagnostics.this)#TypeDiag] with Product with Serializable
- Definition Classes
- TypeDiagnostics
-
trait
TyperDiagnostics extends AnyRef
- Definition Classes
- TypeDiagnostics
-
class
UnusedPrivates extends Global.Traverser
- Definition Classes
- TypeDiagnostics
-
class
checkUnused extends AnyRef
- Definition Classes
- TypeDiagnostics
-
sealed abstract
class
SilentResult[+T] extends AnyRef
- Definition Classes
- Typers
-
case class
SilentResultValue[+T](value: T) extends Analyzer.SilentResult[T] with Product with Serializable
- Definition Classes
- Typers
-
class
SilentTypeError extends Analyzer.SilentResult[Nothing]
- Definition Classes
- Typers
-
abstract
class
Typer extends Analyzer.TyperDiagnostics with Analyzer.Adaptation with Analyzer.Tag with Analyzer.PatternTyper with Analyzer.TyperContextErrors
- Definition Classes
- Typers
-
class
ClassForCaseCompanionAttachment extends AnyRef
- Definition Classes
- Unapplies
Abstract Value Members
-
abstract
val
global: Global
- Definition Classes
- InteractiveAnalyzer → Analyzer → TreeDSL
Concrete Value Members
-
object
CODE
- Definition Classes
- TreeDSL
-
final
def
!=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
final
def
##(): Int
- Definition Classes
- AnyRef → Any
-
def
+(other: String): String
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to any2stringadd[InteractiveAnalyzer] performed by method any2stringadd in scala.Predef.
- Definition Classes
- any2stringadd
-
def
->[B](y: B): (InteractiveAnalyzer, B)
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to ArrowAssoc[InteractiveAnalyzer] performed by method ArrowAssoc in scala.Predef.
- Definition Classes
- ArrowAssoc
- Annotations
- @inline()
-
final
def
==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
lazy val
AmbiguousSearchFailure: SearchResult
- Definition Classes
- Implicits
-
def
Delay(expanded: Global.Tree): Delayed
- Definition Classes
- Macros
-
lazy val
DivergentSearchFailure: SearchResult
- Definition Classes
- Implicits
-
val
ImportType: Global.ImportType.type
- Definition Classes
- Contexts
-
def
MacroCantExpand210xMacrosError(internalMessage: String): Nothing
- Definition Classes
- ContextErrors
-
def
MacroCantExpandIncompatibleMacrosError(internalMessage: String): Nothing
- Definition Classes
- ContextErrors
-
def
NoImplicitFoundError(tree: Global.Tree, param: Global.Symbol)(implicit context: Context): Unit
- Definition Classes
- ContextErrors
-
val
NoImplicitInfo: ImplicitInfo
A sentinel indicating no implicit was found
A sentinel indicating no implicit was found
- Definition Classes
- Implicits
-
lazy val
SearchFailure: SearchResult
- Definition Classes
- Implicits
-
def
Skip(expanded: Global.Tree): Skipped
- Definition Classes
- Macros
-
val
_openMacros: collection.immutable.List[reflect.macros.contexts.Context { val universe: InteractiveAnalyzer.this.global.type }]
Keeps track of macros in-flight.
Keeps track of macros in-flight. See more informations in comments to
openMacrosinscala.reflect.macros.whitebox.Context.- Definition Classes
- Macros
-
def
abstractVarMessage(sym: Global.Symbol): String
An explanatory note to be added to error messages when there's a problem with abstract var defs
An explanatory note to be added to error messages when there's a problem with abstract var defs
- Definition Classes
- TypeDiagnostics
-
def
adaptAnnotations(tree: Global.Tree, typer: Typer, mode: Mode, pt: Global.Type): Global.Tree
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.adaptAnnotations
-
def
addAnalyzerPlugin(plugin: AnalyzerPlugin): Unit
Registers a new analyzer plugin
Registers a new analyzer plugin
- Definition Classes
- AnalyzerPlugins
-
def
addDefaults(givenArgs: List[Global.Tree], qual: Option[Global.Tree], targs: List[Global.Tree], previousArgss: List[List[Global.Tree]], params: List[Global.Symbol], pos: Position, context: Context): (List[Global.Tree], List[Global.Symbol])
Extend the argument list
givenArgswith default arguments.Extend the argument list
givenArgswith default arguments. Defaults are added as named arguments calling the corresponding default getter.Example: given def foo(x: Int = 2, y: String = "def") foo(y = "lt") the argument list (y = "lt") is transformed to (y = "lt", x = foo$default$1())
- Definition Classes
- NamesDefaults
-
def
addMacroPlugin(plugin: MacroPlugin): Unit
Registers a new macro plugin
Registers a new macro plugin
- Definition Classes
- AnalyzerPlugins
-
def
addSyntheticMethods(templ: Global.Template, clazz0: Global.Symbol, context: Context): Global.Template
Add the synthetic methods to case classes.
Add the synthetic methods to case classes.
- Definition Classes
- SyntheticMethods
-
def
allArgsArePositional(a: Array[Int]): Boolean
returns
trueif every element is equal to its indexreturns
trueif every element is equal to its index- Definition Classes
- NamesDefaults
-
def
allViewsFrom(tp: Global.Type, context: Context, tpars: List[Global.Symbol]): List[(SearchResult, List[Global.TypeConstraint])]
Find all views from type
tp(in whichtparsare free)Find all views from type
tp(in whichtparsare free)Note that the trees in the search results in the returned list share the same type variables. Ignore their constr field! The list of type constraints returned along with each tree specifies the constraints that must be met by the corresponding type parameter in
tpars(for the returned implicit view to be valid).- tp
from-type for the implicit conversion
- context
search implicits here
- tpars
symbols that should be considered free type variables (implicit search should not try to solve them, just track their constraints)
- Definition Classes
- Implicits
-
def
alternatives(tree: Global.Tree): List[Global.Type]
- Definition Classes
- TypeDiagnostics
-
def
alternativesString(tree: Global.Tree): String
- Definition Classes
- TypeDiagnostics
-
def
ambiguousDefnAndImport(owner: Global.Symbol, imp: ImportInfo): Global.LookupAmbiguous
- Definition Classes
- Contexts
-
def
ambiguousImports(imp1: ImportInfo, imp2: ImportInfo): Global.LookupAmbiguous
- Definition Classes
- Contexts
-
final
def
asInstanceOf[T0]: T0
- Definition Classes
- Any
-
def
bindMacroImpl(macroDef: Global.Symbol, macroImplRef: Global.Tree): Unit
- Definition Classes
- Macros
-
def
canAdaptAnnotations(tree: Global.Tree, typer: Typer, mode: Mode, pt: Global.Type): Boolean
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.canAdaptAnnotations
-
final
def
caseAccessorName(caseclazz: Global.Symbol, paramName: Global.TermName): Global.TermName
Does not force the info of
caseclazzDoes not force the info of
caseclazz- Definition Classes
- SyntheticMethods
-
def
caseClassCopyMeth(cdef: Global.ClassDef): Option[Global.DefDef]
Generates copy methods for case classes.
Generates copy methods for case classes. Copy only has defaults on the first parameter list, as of scala/bug#5009.
The parameter types of the copy method need to be exactly the same as the parameter types of the primary constructor. Just copying the TypeTree is not enough: a type
Cmight refer to something else *inside* the class (i.e. as parameter type ofcopy) than *outside* the class (i.e. in the class parameter list).One such example is t0054.scala: class A { case class B(x: C) extends A { def copy(x: C = x) = ... } class C {} } (1) (2)
The reference (1) to C is
A.this.C. The reference (2) isB.this.C- not the same.This is fixed with a hack currently.
Unapplies.caseClassCopyMeth, which creates the copy method, uses emptyTypeTree()nodes for parameter types.In
Namers.enterDefDef, the copy method gets a special type completer (enterCopyMethod). Before computing the body type ofcopy, the class parameter types are assigned the copy method parameters.This attachment class stores the copy method parameter ValDefs as an attachment in the ClassDef of the case class.
- Definition Classes
- Unapplies
-
def
caseModuleApplyMeth(cdef: Global.ClassDef): Global.DefDef
The apply method corresponding to a case class
The apply method corresponding to a case class
- Definition Classes
- Unapplies
-
def
caseModuleDef(cdef: Global.ClassDef): Global.ModuleDef
The module corresponding to a case class; overrides toString to show the module's name
The module corresponding to a case class; overrides toString to show the module's name
- Definition Classes
- Unapplies
-
def
caseModuleUnapplyMeth(cdef: Global.ClassDef): Global.DefDef
The unapply method corresponding to a case class
The unapply method corresponding to a case class
- Definition Classes
- Unapplies
-
def
clearDelayed(): Unit
- Definition Classes
- Macros
-
final
def
clearRenamedCaseAccessors(caseclazz: Global.Symbol): Unit
- Definition Classes
- SyntheticMethods
-
def
clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( ... ) @native()
-
def
companionModuleDef(cdef: Global.ClassDef, parents: List[Global.Tree] = Nil, body: List[Global.Tree] = Nil): Global.ModuleDef
- Definition Classes
- Unapplies
-
def
companionSymbolOf(original: Global.Symbol, ctx: Context): Global.Symbol
The companion class or companion module of
original.The companion class or companion module of
original. Calling .companionModule does not work for classes defined inside methods.!!! Then why don't we fix companionModule? Does the presence of these methods imply all the places in the compiler calling sym.companionModule are bugs waiting to be reported? If not, why not? When exactly do we need to call this method?
- Definition Classes
- Namers
-
def
computeMacroDefTypeFromMacroImplRef(macroDdef: Global.DefDef, macroImplRef: Global.Tree): Global.Type
- Definition Classes
- Macros
-
def
decodeWithKind(name: Global.Name, owner: Global.Symbol): String
- Definition Classes
- TypeDiagnostics
-
def
decreaseMetalevel(tp: Global.Type): Global.Type
Decreases metalevel of the type, i.e.
Decreases metalevel of the type, i.e. transforms: * c.Expr[T] to T * Nothing to Nothing * Anything else to NoType
- Definition Classes
- Helpers
- See also
Metalevels.scala for more information and examples about metalevels
-
def
defaultGetter(param: Global.Symbol, context: Context): Global.Symbol
For a parameter with default argument, find the method symbol of the default getter.
For a parameter with default argument, find the method symbol of the default getter.
- Definition Classes
- NamesDefaults
-
def
defaultMacroClassloader: ClassLoader
- Definition Classes
- MacroRuntimes
-
def
directUnapplyMember(tp: Global.Type): Global.Symbol
Returns unapply or unapplySeq if available, without further checks.
Returns unapply or unapplySeq if available, without further checks.
- Definition Classes
- Unapplies
-
def
disambiguate(ss: List[String]): collection.immutable.List[String]
- Definition Classes
- TypeDiagnostics
-
def
enclosingMacroPosition: Position
- Definition Classes
- Macros
-
def
ensuring(cond: (InteractiveAnalyzer) ⇒ Boolean, msg: ⇒ Any): InteractiveAnalyzer
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to Ensuring[InteractiveAnalyzer] performed by method Ensuring in scala.Predef.
- Definition Classes
- Ensuring
-
def
ensuring(cond: (InteractiveAnalyzer) ⇒ Boolean): InteractiveAnalyzer
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to Ensuring[InteractiveAnalyzer] performed by method Ensuring in scala.Predef.
- Definition Classes
- Ensuring
-
def
ensuring(cond: Boolean, msg: ⇒ Any): InteractiveAnalyzer
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to Ensuring[InteractiveAnalyzer] performed by method Ensuring in scala.Predef.
- Definition Classes
- Ensuring
-
def
ensuring(cond: Boolean): InteractiveAnalyzer
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to Ensuring[InteractiveAnalyzer] performed by method Ensuring in scala.Predef.
- Definition Classes
- Ensuring
-
final
def
eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
def
equals(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
-
def
etaExpand(unit: Global.CompilationUnit, tree: Global.Tree, typer: Typer): Global.Tree
Expand partial method application
p.f(es_1)...(es_n).Expand partial method application
p.f(es_1)...(es_n).We expand this to the following block, which evaluates the target of the application and its supplied arguments if needed (they are not stable), and then wraps a Function that abstracts over the missing arguments.
{ private synthetic val eta$f = p.f // if p is not stable ... private synthetic val eta$e_i = e_i // if e_i is not stable ... (ps_1 => ... => ps_m => eta$f([es_1])...([es_m])(ps_1)...(ps_m)) }This is called from instantiateToMethodType after type checking
tree, and we realize we have a method type, where a function type (builtin or SAM) is expected.- Definition Classes
- EtaExpansion
-
final
def
exampleTuplePattern(names: List[Global.Name]): String
[a, b, c] => "(a, b, c)" [a, B] => "(param1, param2)" [a, B, c] => "(param1, ..., param2)"
[a, b, c] => "(a, b, c)" [a, B] => "(param1, param2)" [a, B, c] => "(param1, ..., param2)"
- Definition Classes
- TypeDiagnostics
-
def
existentialContext(tp: Global.Type): String
- Definition Classes
- TypeDiagnostics
-
def
explainAlias(tp: Global.Type): String
- Definition Classes
- TypeDiagnostics
-
def
explainAnyVsAnyRef(found: Global.Type, req: Global.Type): String
- Definition Classes
- TypeDiagnostics
-
def
explainVariance(found: Global.Type, req: Global.Type): String
Look through the base types of the found type for any which might have been valid subtypes if given conformant type arguments.
Look through the base types of the found type for any which might have been valid subtypes if given conformant type arguments. Examine those for situations where the type error would have been eliminated if the variance were different. In such cases, append an additional explanatory message.
TODO: handle type aliases better.
- Definition Classes
- TypeDiagnostics
-
def
factoryMeth(mods: Global.Modifiers, name: Global.TermName, cdef: Global.ClassDef): Global.DefDef
The apply method corresponding to a case class
The apply method corresponding to a case class
- Definition Classes
- Unapplies
-
final
def
falseIfNoInstance(body: ⇒ Boolean): Boolean
- Definition Classes
- Infer
- Annotations
- @inline()
-
lazy val
fastTrack: FastTrack[InteractiveAnalyzer.this.type]
- Definition Classes
- Macros
-
def
finalOwners(tpe: Global.Type): Boolean
- Definition Classes
- TypeDiagnostics
-
def
finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws( classOf[java.lang.Throwable] )
-
def
findMacroClassLoader(): ClassLoader
Obtains a
ClassLoaderinstance used for macro expansion.Obtains a
ClassLoaderinstance used for macro expansion.By default a new
ScalaClassLoaderis created using the classpath from global and the classloader of self as parent.Mirrors with runtime definitions (e.g. Repl) need to adjust this method.
- Attributes
- protected
- Definition Classes
- Macros
-
final
def
finishComputeParamAlias(): Unit
Finish computation of param aliases after typechecking is completed
Finish computation of param aliases after typechecking is completed
- Definition Classes
- Typers
-
final
def
forArgMode(fun: Global.Tree, mode: Mode): reflect.internal.Mode
- Definition Classes
- Typers
-
def
formalTypes(formals: List[Global.Type], numArgs: Int, removeByName: Boolean = true, removeRepeated: Boolean = true): List[Global.Type]
The formal parameter types corresponding to
formals.The formal parameter types corresponding to
formals. Ifformalshas a repeated last parameter, a list of (numArgs - numFormals + 1) copies of its type is appended to the other formals. By-name types are replaced with their underlying type.- removeByName
allows keeping ByName parameters. Used in NamesDefaults.
- removeRepeated
allows keeping repeated parameter (if there's one argument). Used in NamesDefaults.
- Definition Classes
- Infer
-
def
foundReqMsg(found: Global.Type, req: Global.Type): String
- Definition Classes
- TypeDiagnostics
-
def
freshNameCreatorFor(context: Context): FreshNameCreator
- Definition Classes
- Typers
-
def
freshVar(tparam: Global.Symbol): Global.TypeVar
A fresh type variable with given type parameter as origin.
A fresh type variable with given type parameter as origin.
- Definition Classes
- Infer
-
def
fullSiteString(context: Context): String
- Definition Classes
- TypersTracking
-
final
def
getClass(): Class[_]
- Definition Classes
- AnyRef → Any
- Annotations
- @native()
- def globalSettings: Settings
-
def
hasMacroExpansionAttachment(any: Any): Boolean
Determines whether the target is either an original or a result of a macro expansion.
Determines whether the target is either an original or a result of a macro expansion. The parameter is of type
Any, because macros can expand both into trees and into annotations.- Definition Classes
- StdAttachments
-
val
hasPendingMacroExpansions: Boolean
Without any restrictions on macro expansion, macro applications will expand at will, and when type inference is involved, expansions will end up using yet uninferred type params.
Without any restrictions on macro expansion, macro applications will expand at will, and when type inference is involved, expansions will end up using yet uninferred type params.
For some macros this might be ok (thanks to TreeTypeSubstituter that replaces the occurrences of undetparams with their inferred values), but in general case this won't work. E.g. for reification simple substitution is not enough - we actually need to re-reify inferred types.
Luckily, there exists a very simple way to fix the problem: delay macro expansion until everything is inferred. Here are the exact rules. Macro application gets delayed if any of its subtrees contain: 1) type vars (tpe.isInstanceOf[TypeVar]) // [Eugene] this check is disabled right now, because TypeVars seem to be created from undetparams anyways 2) undetparams (sym.isTypeParameter && !sym.isSkolem)
- Definition Classes
- Macros
-
def
hasSuperArgs(tree: Global.Tree): Boolean
Determines whether the given tree has an associated SuperArgsAttachment.
Determines whether the given tree has an associated SuperArgsAttachment.
- Definition Classes
- StdAttachments
-
def
hashCode(): Int
- Definition Classes
- AnyRef → Any
- Annotations
- @native()
-
def
increaseMetalevel(pre: Global.Type, tp: Global.Type): Global.Type
Increases metalevel of the type, i.e.
Increases metalevel of the type, i.e. transforms: * T to c.Expr[T]
- Definition Classes
- Helpers
- See also
Metalevels.scala for more information and examples about metalevels
-
def
inferImplicit(tree: Global.Tree, pt: Global.Type, isView: Boolean, context: Context, silent: Boolean, withMacrosDisabled: Boolean, pos: Global.Position, onError: (Global.Position, String) ⇒ Unit): Global.Tree
A friendly wrapper over inferImplicit to be used in macro contexts and toolboxes.
A friendly wrapper over inferImplicit to be used in macro contexts and toolboxes.
- Definition Classes
- Implicits
-
def
inferImplicit(tree: Global.Tree, pt: Global.Type, reportAmbiguous: Boolean, isView: Boolean, context: Context, saveAmbiguousDivergent: Boolean, pos: Global.Position): SearchResult
Search for an implicit value.
Search for an implicit value. Consider using one of the convenience methods above. This one has many boolean levers.
See the comment on
resultat the end of classImplicitSearchfor more info how the search is conducted.- tree
The tree for which the implicit needs to be inserted. (the inference might instantiate some of the undetermined type parameters of that tree.
- pt
The expected type of the implicit.
- reportAmbiguous
Should ambiguous implicit errors be reported? False iff we search for a view to find out whether one type is coercible to another.
- isView
We are looking for a view
- context
The current context
- saveAmbiguousDivergent
False if any divergent/ambiguous errors should be ignored after implicits search, true if they should be reported (used in further typechecking).
- pos
Position that should be used for tracing and error reporting (useful when we infer synthetic stuff and pass EmptyTree in the
treeargument) If it's set to NoPosition, then position-based services will usetree.pos- returns
A search result
- Definition Classes
- Implicits
-
def
inferImplicitByType(pt: Global.Type, context: Context, pos: Global.Position = NoPosition): SearchResult
- Definition Classes
- Implicits
-
def
inferImplicitByTypeSilent(pt: Global.Type, context: Context, pos: Global.Position = NoPosition): SearchResult
- Definition Classes
- Implicits
-
def
inferImplicitFor(pt: Global.Type, tree: Global.Tree, context: Context, reportAmbiguous: Boolean = true): SearchResult
- Definition Classes
- Implicits
-
def
inferImplicitView(from: Global.Type, to: Global.Type, tree: Global.Tree, context: Context, reportAmbiguous: Boolean, saveAmbiguousDivergent: Boolean): SearchResult
- Definition Classes
- Implicits
-
def
isBlackbox(macroDef: Global.Symbol): Boolean
- Definition Classes
- Macros
-
def
isBlackbox(expandee: Global.Tree): Boolean
- Definition Classes
- Macros
-
def
isDynamicRewrite(tree: Global.Tree): Boolean
- Definition Classes
- StdAttachments
-
def
isIndividualImport(s: Global.ImportSelector): Boolean
- Definition Classes
- Contexts
-
final
def
isInstanceOf[T0]: Boolean
- Definition Classes
- Any
-
def
isMacroExpansionSuppressed(tree: Global.Tree): Boolean
Determines whether a tree should not be expanded, because someone has put SuppressMacroExpansionAttachment on it or one of its children.
Determines whether a tree should not be expanded, because someone has put SuppressMacroExpansionAttachment on it or one of its children.
- Definition Classes
- StdAttachments
-
def
isMacroImplRef(tree: Global.Tree): Boolean
Determines whether a tree should or should not be adapted, because someone has put MacroImplRefAttachment on it.
Determines whether a tree should or should not be adapted, because someone has put MacroImplRefAttachment on it.
- Definition Classes
- StdAttachments
-
def
isMaskImport(s: Global.ImportSelector): Boolean
- Definition Classes
- Contexts
-
def
isNamedArg(arg: Global.Tree): Boolean
- Definition Classes
- NamesDefaults
-
def
isVariableInScope(context: Context, name: Global.Name): Boolean
- Definition Classes
- NamesDefaults
-
def
isWildcardImport(s: Global.ImportSelector): Boolean
- Definition Classes
- Contexts
-
val
lastAccessCheckDetails: String
- Definition Classes
- Contexts
-
val
lastTreeToTyper: Global.Tree
- Definition Classes
- TypersTracking
-
def
linePrecedes(t1: Global.Tree, t2: Global.Tree): Boolean
- Definition Classes
- TypeDiagnostics
-
def
linkExpandeeAndDesugared(expandee: Global.Tree, desugared: Global.Tree): Unit
After macro expansion is completed, links the expandee and the expansion result by annotating them both with a
MacroExpansionAttachment.After macro expansion is completed, links the expandee and the expansion result by annotating them both with a
MacroExpansionAttachment.- Definition Classes
- StdAttachments
-
def
linkExpandeeAndExpanded(expandee: Global.Tree, expanded: Any): Unit
After macro expansion is completed, links the expandee and the expansion result by annotating them both with a
MacroExpansionAttachment.After macro expansion is completed, links the expandee and the expansion result by annotating them both with a
MacroExpansionAttachment. Theexpandedparameter is of typeAny, because macros can expand both into trees and into annotations.- Definition Classes
- StdAttachments
-
final
def
linkedClassOfClassOf(original: Global.Symbol, ctx: Context): Global.Symbol
A version of
Symbol#linkedClassOfClassthat works with local companions, alacompanionSymbolOf.A version of
Symbol#linkedClassOfClassthat works with local companions, alacompanionSymbolOf.- Definition Classes
- Namers
-
def
loadMacroImplBinding(macroDef: Global.Symbol): Option[MacroImplBinding]
- Definition Classes
- Macros
-
def
macroArgs(typer: Typer, expandee: Global.Tree): MacroArgs
- Definition Classes
- Macros
-
def
macroContext(typer: Typer, prefixTree: Global.Tree, expandeeTree: Global.Tree): MacroContext
- Definition Classes
- Macros
-
val
macroDebugLite: Boolean
- Definition Classes
- Traces
-
val
macroDebugVerbose: Boolean
- Definition Classes
- Traces
-
def
macroEngine: String
Macro def -> macro impl bindings are serialized into a
macroImplannotation with synthetic content that carries the payload described inMacroImplBinding.Macro def -> macro impl bindings are serialized into a
macroImplannotation with synthetic content that carries the payload described inMacroImplBinding.For example, for a pair of macro definition and macro implementation: def impl(c: scala.reflect.macros.blackbox.Context): c.Expr[Unit] = ??? def foo: Unit = macro impl
We will have the following annotation added on the macro definition
foo:- Definition Classes
- Macros
-
def
macroExpand(typer: Typer, expandee: Global.Tree, mode: Mode, pt: Global.Type): Global.Tree
Expands a term macro used in apply role as
M(2)(3)inval x = M(2)(3).Expands a term macro used in apply role as
M(2)(3)inval x = M(2)(3).- Definition Classes
- Macros
- See also
DefMacroExpander
-
def
macroExpandAll(typer: Typer, expandee: Global.Tree): Global.Tree
Performs macro expansion on all subtrees of a given tree.
Performs macro expansion on all subtrees of a given tree. Innermost macros are expanded first, outermost macros are expanded last. See the documentation for
macroExpandfor more information.- Definition Classes
- Macros
-
def
macroExpandWithRuntime(typer: Typer, expandee: Global.Tree, runtime: MacroRuntime): MacroStatus
Expands a macro when a runtime (i.e.
Expands a macro when a runtime (i.e. the macro implementation) can be successfully loaded Meant for internal use within the macro infrastructure, don't use it elsewhere.
- Definition Classes
- Macros
-
def
macroExpandWithoutRuntime(typer: Typer, expandee: Global.Tree): MacroStatus
Expands a macro when a runtime (i.e.
Expands a macro when a runtime (i.e. the macro implementation) cannot be loaded Meant for internal use within the macro infrastructure, don't use it elsewhere.
- Definition Classes
- Macros
-
def
macroExpandee(tree: Global.Tree): Global.Tree
Returns the original tree of the macro expansion if the argument is a macro expansion or EmptyTree otherwise.
Returns the original tree of the macro expansion if the argument is a macro expansion or EmptyTree otherwise.
- Definition Classes
- StdAttachments
-
def
macroExpanderAttachment(tree: Global.Tree): MacroExpanderAttachment
Loads underlying MacroExpanderAttachment from a macro expandee or returns a default value for that attachment.
Loads underlying MacroExpanderAttachment from a macro expandee or returns a default value for that attachment.
- Definition Classes
- StdAttachments
-
final
def
macroLogLite(msg: ⇒ Any): Unit
- Definition Classes
- Traces
- Annotations
- @inline()
-
final
def
macroLogVerbose(msg: ⇒ Any): Unit
- Definition Classes
- Traces
- Annotations
- @inline()
-
def
macroRuntime(expandee: Global.Tree): MacroRuntime
Produces a function that can be used to invoke macro implementation for a given macro definition: 1) Looks up macro implementation symbol in this universe.
Produces a function that can be used to invoke macro implementation for a given macro definition: 1) Looks up macro implementation symbol in this universe. 2) Loads its enclosing class from the macro classloader. 3) Loads the companion of that enclosing class from the macro classloader. 4) Resolves macro implementation within the loaded companion.
- returns
Requested runtime if macro implementation can be loaded successfully from either of the mirrors,
nullotherwise.
- Definition Classes
- MacroRuntimes
-
def
makeNamedTypes(syms: List[Global.Symbol]): collection.immutable.List[Global.NamedType]
- Definition Classes
- NamesDefaults
-
def
markDynamicRewrite(tree: Global.Tree): Global.Tree
- Definition Classes
- StdAttachments
-
def
markMacroImplRef(tree: Global.Tree): Global.Tree
Marks the tree as a macro impl reference, which is a naked reference to a method.
Marks the tree as a macro impl reference, which is a naked reference to a method.
This is necessary for typechecking macro impl references (see
DefaultMacroCompiler.defaultResolveMacroImpl), because otherwise typing a naked reference will result in the "follow this method with_if you want to treat it as a partially applied function" errors.This mark suppresses adapt except for when the annottee is a macro application.
- Definition Classes
- StdAttachments
-
def
memberWildcardType(name: Global.Name, tp: Global.Type): Global.Type
A constructor for types ?{ def/type name: tp }, used in infer view to member searches.
A constructor for types ?{ def/type name: tp }, used in infer view to member searches.
- Definition Classes
- Implicits
-
def
missingParams[T](args: List[T], params: List[Global.Symbol], argName: (T) ⇒ Option[Global.Name]): (List[Global.Symbol], Boolean)
Returns the parameter symbols of an invocation expression that are not defined by the list of arguments.
Returns the parameter symbols of an invocation expression that are not defined by the list of arguments.
- args
The list of arguments
- params
The list of parameter symbols of the invoked method
- argName
A function that extracts the name of an argument expression, if it is a named argument.
- Definition Classes
- NamesDefaults
-
final
def
ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
def
newNamer(context: Context): InteractiveNamer
- Definition Classes
- InteractiveAnalyzer → Namers
-
def
newTyper(context: Context): InteractiveTyper
- Definition Classes
- InteractiveAnalyzer → Typers
-
def
noPrintAdapt(tree1: Global.Tree, tree2: Global.Tree): Boolean
- Definition Classes
- TypersTracking
-
def
noPrintTyping(t: Global.Tree): Boolean
- Definition Classes
- TypersTracking
-
def
normalize(tp: Global.Type): Global.Type
Automatically perform the following conversions on expression types: A method type becomes the corresponding function type.
Automatically perform the following conversions on expression types: A method type becomes the corresponding function type. A nullary method type becomes its result type. Implicit parameters are skipped. This method seems to be performance critical.
- Definition Classes
- Infer
-
def
notAnyRefMessage(found: Global.Type): String
- Definition Classes
- ContextErrors
-
final
def
notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native()
-
final
def
notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native()
-
def
notifyUndetparamsAdded(newUndets: List[Global.Symbol]): Unit
- Definition Classes
- Macros
-
def
notifyUndetparamsInferred(undetNoMore: List[Global.Symbol], inferreds: List[Global.Type]): Unit
- Definition Classes
- Macros
-
def
onTreeCheckerError(pos: Global.Position, msg: String): Unit
- Attributes
- protected
- Definition Classes
- Contexts
-
def
openMacros: collection.immutable.List[reflect.macros.contexts.Context { val universe: InteractiveAnalyzer.this.global.type }]
- Definition Classes
- Macros
-
def
pluginsEnsureCompanionObject(namer: Namer, cdef: Global.ClassDef, creator: (Global.ClassDef) ⇒ Global.Tree = companionModuleDef(_)): Global.Symbol
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsEnsureCompanionObject
-
def
pluginsEnterStats(typer: Typer, stats: List[Global.Tree]): List[Global.Tree]
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsEnterStats
-
def
pluginsEnterSym(namer: Namer, tree: Global.Tree): Context
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsEnterSym
-
def
pluginsIsBlackbox(macroDef: Global.Symbol): Boolean
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsIsBlackbox
-
def
pluginsMacroArgs(typer: Typer, expandee: Global.Tree): MacroArgs
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsMacroArgs
-
def
pluginsMacroExpand(typer: Typer, expandee: Global.Tree, mode: Mode, pt: Global.Type): Global.Tree
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsMacroExpand
-
def
pluginsMacroRuntime(expandee: Global.Tree): MacroRuntime
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsMacroRuntime
-
def
pluginsNotifyImplicitSearch(search: ImplicitSearch): Unit
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsImplicitSearch
-
def
pluginsNotifyImplicitSearchResult(result: SearchResult): Unit
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsImplicitSearchResult
-
def
pluginsPt(pt: Global.Type, typer: Typer, tree: Global.Tree, mode: Mode): Global.Type
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsPt
-
def
pluginsTypeSig(tpe: Global.Type, typer: Typer, defTree: Global.Tree, pt: Global.Type): Global.Type
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsTypeSig
-
def
pluginsTypeSigAccessor(tpe: Global.Type, typer: Typer, tree: Global.ValDef, sym: Global.Symbol): Global.Type
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsTypeSigAccessor
-
def
pluginsTyped(tpe: Global.Type, typer: Typer, tree: Global.Tree, mode: Mode, pt: Global.Type): Global.Type
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsTyped
-
def
pluginsTypedMacroBody(typer: Typer, ddef: Global.DefDef): Global.Tree
- Definition Classes
- AnalyzerPlugins
- See also
MacroPlugin.pluginsTypedMacroBody
-
def
pluginsTypedReturn(tpe: Global.Type, typer: Typer, tree: Global.Return, pt: Global.Type): Global.Type
- Definition Classes
- AnalyzerPlugins
- See also
AnalyzerPlugin.pluginsTypedReturn
-
def
popMacroContext(): Unit
- Definition Classes
- Macros
-
def
posPrecedes(p1: Global.Position, p2: Global.Position): Boolean
Does the positioned line assigned to t1 precede that of t2?
Does the positioned line assigned to t1 precede that of t2?
- Definition Classes
- TypeDiagnostics
-
def
printingOk(t: Global.Tree): Boolean
- Definition Classes
- TypersTracking
-
def
propagateKnownTypes(from: Global.Type, to: Global.Symbol): Global.Type
The applied type of class 'to' after inferring anything possible from the knowledge that 'to' must also be of the type given in 'from'.
The applied type of class 'to' after inferring anything possible from the knowledge that 'to' must also be of the type given in 'from'.
- Definition Classes
- Checkable
-
def
pushMacroContext(c: MacroContext): Unit
- Definition Classes
- Macros
-
final
def
recursivelyFinal(tpe: Global.Type): Boolean
- Definition Classes
- TypeDiagnostics
- Annotations
- @tailrec()
-
def
removeNames(typer: Typer)(args: List[Global.Tree], params: List[Global.Symbol]): (List[Global.Tree], Array[Int])
Removes name assignments from args.
Removes name assignments from args. Additionally, returns an array mapping argument indices from call-site-order to definition-site-order.
Verifies that names are not specified twice, and positional args don't appear after named ones.
- Definition Classes
- NamesDefaults
-
def
reorderArgs[T](args: List[T], pos: (Int) ⇒ Int)(implicit arg0: ClassTag[T]): List[T]
- pos
maps indices from old to new
- Definition Classes
- NamesDefaults
-
def
resetContexts(): Unit
- Definition Classes
- Contexts
-
def
resetDocComments(): Unit
- Definition Classes
- Typers
-
def
resetImplicits(): Unit
- Definition Classes
- Implicits
-
def
resetTyper(): Unit
- Definition Classes
- Typers
-
def
restrictionError(pos: Global.Position, unit: Global.CompilationUnit, msg: String): Unit
- Definition Classes
- TypeDiagnostics
-
def
restrictionWarning(pos: Global.Position, unit: Global.CompilationUnit, msg: String, category: WarningCategory, site: Global.Symbol): Unit
For errors which are artifacts of the implementation: such messages indicate that the restriction may be lifted in the future.
For errors which are artifacts of the implementation: such messages indicate that the restriction may be lifted in the future.
- Definition Classes
- TypeDiagnostics
-
def
rootContext(unit: Global.CompilationUnit, tree: Global.Tree = EmptyTree, throwing: Boolean = false, checking: Boolean = false): Context
- Definition Classes
- Contexts
-
def
rootContextPostTyper(unit: Global.CompilationUnit, tree: Global.Tree = EmptyTree): Context
- Definition Classes
- Contexts
-
def
rootImports(unit: Global.CompilationUnit): List[Global.Symbol]
List of symbols to import from in a root context.
List of symbols to import from in a root context. Typically that is
java.lang,scala, and scala.Predef, in that order. Exceptions:- if option
-Yno-importsis given, nothing is imported - if the unit is java defined, only
java.langis imported - if option
-Yno-predefis given, if the unit body has an import of Predef among its leading imports, or if the tree is scala.Predef,Predefis not imported.
- Attributes
- protected
- Definition Classes
- Contexts
- if option
-
def
setAddendum(pos: Global.Position, msg: () ⇒ String): Unit
- Definition Classes
- TypeDiagnostics
-
final
val
shortenImports: Boolean(false)
- Definition Classes
- Typers
-
def
skipImplicit(tp: Global.Type): Global.Type
- Definition Classes
- Infer
-
def
solvedTypes(tvars: List[Global.TypeVar], tparams: List[Global.Symbol], getVariance: Extractor[Global.Symbol], upper: Boolean, depth: Depth): List[Global.Type]
Solve constraint collected in types
tvars.Solve constraint collected in types
tvars.- tvars
All type variables to be instantiated.
- tparams
The type parameters corresponding to
tvars- getVariance
Function to extract variances of type parameters; we need to reverse solution direction for all contravariant variables.
- upper
When
truesearch for max solution else min.
- Definition Classes
- Infer
- Exceptions thrown
-
def
standardIsBlackbox(macroDef: Global.Symbol): Boolean
Default implementation of
isBlackbox.Default implementation of
isBlackbox. Can be overridden by analyzer plugins (see AnalyzerPlugins.pluginsIsBlackbox for more details)- Definition Classes
- Macros
-
def
standardMacroArgs(typer: Typer, expandee: Global.Tree): MacroArgs
Default implementation of
macroArgs.Default implementation of
macroArgs. Can be overridden by analyzer plugins (see AnalyzerPlugins.pluginsMacroArgs for more details)- Definition Classes
- Macros
-
def
standardMacroExpand(typer: Typer, expandee: Global.Tree, mode: Mode, pt: Global.Type): Global.Tree
Default implementation of
macroExpand.Default implementation of
macroExpand. Can be overridden by analyzer plugins (see AnalyzerPlugins.pluginsMacroExpand for more details)- Definition Classes
- Macros
-
def
standardMacroRuntime(expandee: Global.Tree): MacroRuntime
- Definition Classes
- MacroRuntimes
-
def
standardTypedMacroBody(typer: Typer, macroDdef: Global.DefDef): Global.Tree
Default implementation of
typedMacroBody.Default implementation of
typedMacroBody. Can be overridden by analyzer plugins (see AnalyzerPlugins.pluginsTypedMacroBody for more details)- Definition Classes
- Macros
-
def
superArgs(tree: Global.Tree): Option[List[List[Global.Tree]]]
Convenience method for
SuperArgsAttachment.Convenience method for
SuperArgsAttachment. Compared withMacroRuntimeAttachmentthis attachment has different a usage pattern, so it really benefits from a dedicated extractor.- Definition Classes
- StdAttachments
-
def
suppressMacroExpansion(tree: Global.Tree): Global.Tree
Suppresses macro expansion of the tree by putting SuppressMacroExpansionAttachment on it.
Suppresses macro expansion of the tree by putting SuppressMacroExpansionAttachment on it.
- Definition Classes
- StdAttachments
-
final
def
synchronized[T0](arg0: ⇒ T0): T0
- Definition Classes
- AnyRef
-
def
toString(): String
- Definition Classes
- AnyRef → Any
-
def
tpe_s(tp: Global.Type, colorize: (String) ⇒ String): String
- Definition Classes
- TypersTracking
-
def
transformNamedApplication(typer: Typer, mode: Mode, pt: Global.Type)(tree: Global.Tree, argPos: (Int) ⇒ Int): Global.Tree
Transform a function application into a Block, and assigns typer.context .namedApplyBlockInfo to the new block as side-effect.
Transform a function application into a Block, and assigns typer.context .namedApplyBlockInfo to the new block as side-effect. If tree has the form Apply(fun, args) first the function "fun" (which might be an application itself!) is transformed into a block of the form { val qual$1 = qualifier_of_fun val x$1 = arg_1_of_fun ... val x$n = arg_n_of_fun qual$1.fun[targs](x$1, ...)...(..., x$n) } then for each argument in args, a value is created and entered into the block. finally the application expression of the block is updated. { val qual$1 = .. ... val x$n = ... > val qual$n+1 = arg(1) > ... > val qual$n+m = arg(m) > qual$1.fun[targs](x$1, ...)...(..., x$n)(x$n+1, ..., x$n+m) }
- typer
the typer calling this method; this method calls typer.doTypedApply
- mode
the mode to use for calling typer.doTypedApply
- pt
the expected type for calling typer.doTypedApply
- returns
the transformed application (a Block) together with the NamedApplyInfo. if isNamedApplyBlock(tree), returns the existing context.namedApplyBlockInfo
- Definition Classes
- NamesDefaults
-
def
transformTypeTagEvidenceParams(macroImplRef: Global.Tree, transform: (Global.Symbol, Global.Symbol) ⇒ Global.Symbol): List[List[Global.Symbol]]
Transforms parameters lists of a macro impl.
Transforms parameters lists of a macro impl. The
transformfunction is invoked only for WeakTypeTag evidence parameters.The transformer takes two arguments: a value parameter from the parameter list and a type parameter that is witnesses by the value parameter.
If the transformer returns a NoSymbol, the value parameter is not included from the result. If the transformer returns something else, this something else is included in the result instead of the value parameter.
Despite of being highly esoteric, this function significantly simplifies signature analysis. For example, it can be used to strip macroImpl.paramss from the evidences (necessary when checking def <-> impl correspondence) or to streamline creation of the list of macro arguments.
- Definition Classes
- Helpers
-
def
treeSymTypeMsg(tree: Global.Tree): String
- Definition Classes
- TypeDiagnostics
-
def
typePatternAdvice(sym: Global.Symbol, ptSym: Global.Symbol): String
- Definition Classes
- TypeDiagnostics
-
def
typedMacroBody(typer: Typer, macroDdef: Global.DefDef): Global.Tree
Verifies that the body of a macro def typechecks to a reference to a static public non-overloaded method or a top-level macro bundle, and that that method is signature-wise compatible with the given macro definition.
Verifies that the body of a macro def typechecks to a reference to a static public non-overloaded method or a top-level macro bundle, and that that method is signature-wise compatible with the given macro definition.
- returns
Macro impl reference for the given macro definition if everything is okay. EmptyTree if an error occurs.
- Definition Classes
- Macros
-
def
typerShouldExpandDeferredMacros: Boolean
- Definition Classes
- Macros
-
def
typingInPattern[T](body: ⇒ T): T
Devising new ways of communicating error info out of desperation to work on error messages.
Devising new ways of communicating error info out of desperation to work on error messages. This is used by typedPattern to wrap its business so we can generate a sensible error message when things go south.
- Definition Classes
- TypeDiagnostics
-
def
unapplyMember(tp: Global.Type): Global.Symbol
Filters out unapplies with multiple (non-implicit) parameter lists, as they cannot be used as extractors
Filters out unapplies with multiple (non-implicit) parameter lists, as they cannot be used as extractors
- Definition Classes
- Unapplies
-
def
underlyingSymbol(member: Global.Symbol): Global.Symbol
The symbol which the given accessor represents (possibly in part).
The symbol which the given accessor represents (possibly in part). This is used for error messages, where we want to speak in terms of the actual declaration or definition, not in terms of the generated setters and getters.
TODO: is it wise to create new symbols simply to generate error message? is this safe in interactive/resident mode?
- Definition Classes
- TypeDiagnostics
-
def
unmarkDynamicRewrite(tree: Global.Tree): Global.Tree
- Definition Classes
- StdAttachments
-
def
unmarkMacroImplRef(tree: Global.Tree): Global.Tree
Unmarks the tree as a macro impl reference (see
markMacroImplReffor more information).Unmarks the tree as a macro impl reference (see
markMacroImplReffor more information).This is necessary when a tree that was previously deemed to be a macro impl reference, typechecks to be a macro application. Then we need to unmark it, expand it and try to treat its expansion as a macro impl reference.
- Definition Classes
- StdAttachments
-
def
unsuppressMacroExpansion(tree: Global.Tree): Global.Tree
Unsuppresses macro expansion of the tree by removing SuppressMacroExpansionAttachment from it and its children.
Unsuppresses macro expansion of the tree by removing SuppressMacroExpansionAttachment from it and its children.
- Definition Classes
- StdAttachments
-
def
untypeMetalevel(tp: Global.Type): Global.Type
Transforms c.Expr[T] types into c.Tree and leaves the rest unchanged.
Transforms c.Expr[T] types into c.Tree and leaves the rest unchanged.
- Definition Classes
- Helpers
-
final
def
wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
-
final
def
wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... )
-
final
def
wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws( ... ) @native()
-
def
warnUnusedImports(unit: Global.CompilationUnit): Unit
- Definition Classes
- Contexts
-
def
withAddendum(pos: Global.Position): (String) ⇒ String
- Definition Classes
- TypeDiagnostics
-
def
withDisambiguation[T](locals: List[Global.Symbol], types: Global.Type*)(op: ⇒ T): T
Given any number of types, alters the name information in the symbols until they can be distinguished from one another: then executes the given code.
Given any number of types, alters the name information in the symbols until they can be distinguished from one another: then executes the given code. The names are restored and the result is returned.
- Definition Classes
- TypeDiagnostics
-
def
→[B](y: B): (InteractiveAnalyzer, B)
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to ArrowAssoc[InteractiveAnalyzer] performed by method ArrowAssoc in scala.Predef.
- Definition Classes
- ArrowAssoc
-
object
namerFactory extends SubComponent
- Definition Classes
- Analyzer
-
object
packageObjects extends SubComponent
- Definition Classes
- Analyzer
-
object
typerFactory extends SubComponent
- Definition Classes
- Analyzer
-
object
ErrorUtils
- Definition Classes
- ContextErrors
-
object
NamesDefaultsErrorsGen
- Definition Classes
- ContextErrors
-
object
NoContext extends Analyzer.Context
- Definition Classes
- Contexts
-
object
Function1
An extractor for unary function types arg => res
An extractor for unary function types arg => res
- Definition Classes
- Implicits
-
object
HasMember
An extractor for types of the form ? { name: ? }
An extractor for types of the form ? { name: ? }
- Definition Classes
- Implicits
-
object
HasMethodMatching
An extractor for types of the form ? { name: (? >: argtpe <: Any*)restp }
An extractor for types of the form ? { name: (? >: argtpe <: Any*)restp }
- Definition Classes
- Implicits
-
object
ImplicitAmbiguousMsg extends Analyzer.ImplicitAnnotationMsg
- Definition Classes
- Implicits
-
object
ImplicitNotFoundMsg extends Analyzer.ImplicitAnnotationMsg
- Definition Classes
- Implicits
-
object
OpenImplicit extends Serializable
- Definition Classes
- Implicits
-
object
Shadower
- Definition Classes
- Implicits
-
object
approximateAbstracts extends Global.TypeMap
- Definition Classes
- Infer
-
object
instantiate extends Global.TypeMap
Map every TypeVar to its constraint.inst field.
Map every TypeVar to its constraint.inst field. throw a NoInstance exception if a NoType or WildcardType is encountered.
- Definition Classes
- Infer
-
object
toOrigin extends Global.TypeMap
- Definition Classes
- Infer
-
object
MacroImplBinding extends Serializable
- Definition Classes
- Macros
-
object
NamedApplyBlock
- Definition Classes
- NamesDefaults
-
object
DynamicRewriteAttachment extends Product with Serializable
Since mkInvoke, the applyDynamic/selectDynamic/etc desugarer, is disconnected from typedNamedApply, the applyDynamicNamed argument rewriter, the latter doesn’t know whether it needs to apply the rewriting because the application has just been desugared or it needs to hold on because it’s already performed a desugaring on this tree.
Since mkInvoke, the applyDynamic/selectDynamic/etc desugarer, is disconnected from typedNamedApply, the applyDynamicNamed argument rewriter, the latter doesn’t know whether it needs to apply the rewriting because the application has just been desugared or it needs to hold on because it’s already performed a desugaring on this tree. This has led to scala/bug#8006.
This attachment solves the problem by providing a means of communication between the two Dynamic desugarers, which solves the aforementioned issue.
- Definition Classes
- StdAttachments
-
object
MacroImplRefAttachment extends Product with Serializable
- Definition Classes
- StdAttachments
- See also
markMacroImplRef
-
object
MethodValueAttachment extends Product with Serializable
Added to trees that appear in a method value, e.g., to
f(x)inf(x) _Added to trees that appear in a method value, e.g., to
f(x)inf(x) _- Definition Classes
- StdAttachments
-
object
SuppressMacroExpansionAttachment extends Product with Serializable
When present, suppresses macro expansion for the host.
When present, suppresses macro expansion for the host. This is occasionally necessary, e.g. to prohibit eta-expansion of macros.
Does not affect expandability of child nodes, there's context.withMacrosDisabled for that (but think thrice before using that API - see the discussion at https://github.com/scala/scala/pull/1639).
- Definition Classes
- StdAttachments
-
object
UnusedPrivates
- Definition Classes
- TypeDiagnostics
-
object
checkDead
- Definition Classes
- TypeDiagnostics
-
object
SilentTypeError
- Definition Classes
- Typers
-
object
checkNoEscaping extends Global.TypeMap
Check that type of given tree does not contain local or private components.
Check that type of given tree does not contain local or private components.
- Definition Classes
- Typers
-
object
typingStack
- Definition Classes
- TypersTracking
-
object
HasUnapply
- Definition Classes
- Unapplies
Deprecated Value Members
-
def
formatted(fmtstr: String): String
- Implicit
- This member is added by an implicit conversion from InteractiveAnalyzer to StringFormat[InteractiveAnalyzer] performed by method StringFormat in scala.Predef.
- Definition Classes
- StringFormat
- Annotations
- @deprecated @inline()
- Deprecated
(Since version 2.12.16) Use
formatString.format(value)instead ofvalue.formatted(formatString), or use thef""string interpolator. In Java 15 and later,formattedresolves to the new method in String which has reversed parameters.
-
def
inferImplicit(tree: Global.Tree, pt: Global.Type, reportAmbiguous: Boolean, isView: Boolean, context: Context, saveAmbiguousDivergent: Boolean): SearchResult
- Definition Classes
- Implicits
- Annotations
- @deprecated
- Deprecated
(Since version 2.12.0-M4) Unused in scalac
-
def
inferImplicit(tree: Global.Tree, pt: Global.Type, reportAmbiguous: Boolean, isView: Boolean, context: Context): SearchResult
- Definition Classes
- Implicits
- Annotations
- @deprecated
- Deprecated
(Since version 2.12.0-M4) Unused in scalac
-
def
mkTypeCompleter(t: Global.Tree)(c: (Global.Symbol) ⇒ Unit): TypeCompleterBase[Global.Tree]
- Definition Classes
- Namers
- Annotations
- @deprecated
- Deprecated
(Since version 2.12.2) Instantiate TypeCompleterBase (for monomorphic, non-wrapping completer) or CompleterWrapper directly.
The Scala compiler and reflection APIs.