Packages

abstract class Reifier extends States with Phases with Errors with Utils

Given a tree or a type, generate a tree that when executed at runtime produces the original tree or type. See more info in the comments to reify in scala.reflect.api.Universe.

Source
Reifier.scala
Type Hierarchy
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Inherited
  1. Reifier
  2. Utils
  3. StdAttachments
  4. SymbolTables
  5. Extractors
  6. NodePrinters
  7. Errors
  8. Phases
  9. Reify
  10. GenUtils
  11. GenPositions
  12. GenAnnotationInfos
  13. GenTrees
  14. GenNames
  15. GenTypes
  16. GenSymbols
  17. Metalevels
  18. Calculate
  19. Reshape
  20. States
  21. AnyRef
  22. Any
Implicitly
  1. by any2stringadd
  2. by StringFormat
  3. by Ensuring
  4. by ArrowAssoc
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Visibility
  1. Public
  2. Protected

Instance Constructors

  1. new Reifier()

Type Members

  1. class State extends AnyRef
    Definition Classes
    States
  2. case class Reification(name: tools.nsc.Global.Name, binding: tools.nsc.Global.Tree, tree: tools.nsc.Global.Tree) extends Product with Serializable
    Definition Classes
    GenSymbols
  3. implicit class RichCalculateSymbol extends AnyRef
    Definition Classes
    Calculate
  4. implicit class RichCalculateType extends AnyRef
    Definition Classes
    Calculate
  5. sealed abstract class FreeDefExtractor extends AnyRef
    Definition Classes
    Extractors
  6. case class ReifyAliasAttachment(sym: tools.nsc.Global.Symbol, alias: tools.nsc.Global.TermName) extends Product with Serializable
    Definition Classes
    StdAttachments
  7. case class ReifyBindingAttachment(binding: tools.nsc.Global.Tree) extends Product with Serializable
    Definition Classes
    StdAttachments
  8. class SymbolTable extends AnyRef
    Definition Classes
    SymbolTables

Abstract Value Members

  1. abstract val concrete: Boolean
  2. abstract val global: Global
    Definition Classes
    ReifierUtils
  3. abstract val mirror: tools.nsc.Global.Tree
  4. abstract val reifee: Any
  5. abstract val typer: (analyzer)#Typer
    Definition Classes
    ReifierUtils
  6. abstract val universe: tools.nsc.Global.Tree

Concrete Value Members

  1. final def !=(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  2. final def ##: Int
    Definition Classes
    AnyRef → Any
  3. def +(other: String): String
    Implicit
    This member is added by an implicit conversion from Reifier toany2stringadd[Reifier] performed by method any2stringadd in scala.Predef.
    Definition Classes
    any2stringadd
  4. def ->[B](y: B): (Reifier, B)
    Implicit
    This member is added by an implicit conversion from Reifier toArrowAssoc[Reifier] performed by method ArrowAssoc in scala.Predef.
    Definition Classes
    ArrowAssoc
    Annotations
    @inline()
  5. final def ==(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  6. def CannotConvertManifestToTagWithoutScalaReflect(tpe: tools.nsc.Global.Type, manifestInScope: tools.nsc.Global.Tree): Nothing
    Definition Classes
    Errors
  7. def CannotReifyCompoundTypeTreeWithNonEmptyBody(ctt: tools.nsc.Global.CompoundTypeTree): Nothing
    Definition Classes
    Errors
  8. def CannotReifyErroneousPrefix(prefix: tools.nsc.Global.Tree): Nothing
    Definition Classes
    Errors
  9. def CannotReifyErroneousReifee(reifee: Any): Nothing
    Definition Classes
    Errors
  10. def CannotReifyInvalidLazyVal(tree: tools.nsc.Global.ValDef): Nothing
    Definition Classes
    Errors
  11. def CannotReifyRuntimeSplice(tree: tools.nsc.Global.Tree): Nothing
    Definition Classes
    Errors
  12. def CannotReifyType(tpe: tools.nsc.Global.Type): Nothing
    Definition Classes
    Errors
  13. def CannotReifyUntypedPrefix(prefix: tools.nsc.Global.Tree): Nothing
    Definition Classes
    Errors
  14. def CannotReifyUntypedReifee(reifee: Any): Nothing
    Definition Classes
    Errors
  15. def CannotReifyWeakType(details: Any): Nothing
    Definition Classes
    Errors
  16. final def asInstanceOf[T0]: T0
    Definition Classes
    Any
  17. def boundSymbolsInCallstack: List[tools.nsc.Global.Symbol]
    Definition Classes
    Reify
  18. val calculate: tools.nsc.Global.Traverser { ... /* 2 definitions in type refinement */ }

    Merely traverses the target and records symbols local to the reifee along with their metalevels.

    Merely traverses the target and records symbols local to the reifee along with their metalevels.

    Definition Classes
    Calculate
  19. def call(fname: String, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  20. def clone(): AnyRef
    Attributes
    protected[lang]
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.CloneNotSupportedException]) @native()
  21. def current: Any
    Definition Classes
    Reify
  22. def currents: List[Any]
    Definition Classes
    Reify
  23. def defaultErrorPosition: tools.nsc.Global.Position
    Definition Classes
    Errors
  24. def ensuring(cond: (Reifier) => Boolean, msg: => Any): Reifier
    Implicit
    This member is added by an implicit conversion from Reifier toEnsuring[Reifier] performed by method Ensuring in scala.Predef.
    Definition Classes
    Ensuring
  25. def ensuring(cond: (Reifier) => Boolean): Reifier
    Implicit
    This member is added by an implicit conversion from Reifier toEnsuring[Reifier] performed by method Ensuring in scala.Predef.
    Definition Classes
    Ensuring
  26. def ensuring(cond: Boolean, msg: => Any): Reifier
    Implicit
    This member is added by an implicit conversion from Reifier toEnsuring[Reifier] performed by method Ensuring in scala.Predef.
    Definition Classes
    Ensuring
  27. def ensuring(cond: Boolean): Reifier
    Implicit
    This member is added by an implicit conversion from Reifier toEnsuring[Reifier] performed by method Ensuring in scala.Predef.
    Definition Classes
    Ensuring
  28. final def eq(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef
  29. def equals(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef → Any
  30. def finalize(): Unit
    Attributes
    protected[lang]
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.Throwable])
  31. final def getClass(): Class[_ <: AnyRef]
    Definition Classes
    AnyRef → Any
    Annotations
    @native()
  32. def getReifier: Reifier { val global: Reifier.this.global.type }
    Definition Classes
    ReifierUtils
  33. def hasReifier: Boolean
    Definition Classes
    ReifierUtils
  34. def hashCode(): Int
    Definition Classes
    AnyRef → Any
    Annotations
    @native()
  35. final def isCrossStageTypeBearer(tree: tools.nsc.Global.Tree): Boolean
    Definition Classes
    GenUtils
    Annotations
    @tailrec()
  36. final def isInstanceOf[T0]: Boolean
    Definition Classes
    Any
  37. def isSemiConcreteTypeMember(tpe: tools.nsc.Global.Type): Boolean
    Definition Classes
    GenUtils
  38. val metalevels: tools.nsc.Global.AstTransformer { ... /* 4 definitions in type refinement */ }

    Makes sense of cross-stage bindings.

    Makes sense of cross-stage bindings.


    Analysis of cross-stage bindings becomes convenient if we introduce the notion of metalevels. Metalevel of a tree is a number that gets incremented every time you reify something and gets decremented when you splice something. Metalevel of a symbol is equal to the metalevel of its definition.

    Example 1. Consider the following snippet:

    reify { val x = 2 // metalevel of symbol x is 1, because it's declared inside reify val y = reify{x} // metalevel of symbol y is 1, because it's declared inside reify // metalevel of Ident(x) is 2, because it's inside two reifies y.splice // metalevel of Ident(y) is 0, because it's inside a designator of a splice }

    Cross-stage bindings are introduced when symbol.metalevel != curr_metalevel. Both bindings introduced in Example 1 are cross-stage.

    Depending on what side of the inequality is greater, the following situations might occur:

    1) symbol.metalevel < curr_metalevel. In this case reifier will generate a free variable that captures both the name of the symbol (to be compiled successfully) and its value (to be run successfully). For example, x in Example 1 will be reified as follows: Ident(newFreeVar("x", IntTpe, x))

    2) symbol.metalevel > curr_metalevel. This leads to a metalevel breach that violates intuitive perception of splicing. As defined in macro spec, splicing takes a tree and inserts it into another tree - as simple as that. However, how exactly do we do that in the case of y.splice? In this very scenario we can use dataflow analysis and inline it, but what if y were a var, and what if it were calculated randomly at runtime?

    This question has a genuinely simple answer. Sure, we cannot resolve such splices statically (i.e. during macro expansion of reify), but now we have runtime toolboxes, so noone stops us from picking up that reified tree and evaluating it at runtime (in fact, this is something that Expr.splice does transparently).

    This is akin to early vs late binding dilemma. The prior is faster, plus, the latter (implemented with reflection) might not work because of visibility issues or might be not available on all platforms. But the latter still has its uses, so I'm allowing metalevel breaches, but introducing the -Xlog-runtime-evals to log them.

    upd. We no longer do that. In case of a runaway splice inside a reify, one will get a static error. Why? Unfortunately, the cute idea of transparently converting between static and dynamic splices has failed. 1) Runtime eval that services dynamic splices requires scala-compiler.jar, which might not be on library classpath 2) Runtime eval incurs a severe performance penalty, so it'd better to be explicit about it


    As we can see, the only problem is the fact that lhs'es of splice can be code blocks that can capture variables from the outside. Code inside the lhs of an splice is not reified, while the code from the enclosing reify is.

    Hence some bindings become cross-stage, which is not bad per se (in fact, some cross-stage bindings have sane semantics, as in the example above). However this affects freevars, since they are delicate inter-dimensional beings that refer to both current and next planes of existence. When splicing tears the fabric of the reality apart, some freevars have to go single-dimensional to retain their confidence.

    Example 2. Consider the following snippet:

    reify { val x = 2 reify{x}.splice }

    Since the result of the inner reify is wrapped in a splice, it won't be reified together with the other parts of the outer reify, but will be inserted into that result verbatim.

    The inner reify produces an Expr[Int] that wraps Ident(freeVar("x", IntTpe, x)). However the freevar the reification points to will vanish when the compiler processes the outer reify. That's why we need to replace that freevar with a regular symbol that will point to reified x.

    Example 3. Consider the following fragment:

    reify { val x = 2 val y = reify{x} y.splice }

    In this case the inner reify doesn't appear next to splice, so it will be reified together with x. This means that no special processing is needed here.

    Example 4. Consider the following fragment:

    reify { val x = 2 { val y = 2 val z = reify{reify{x + y}} z.splice }.splice }

    The reasoning from Example 2 still holds here - we do need to inline the freevar that refers to x. However, we must not touch anything inside the splice'd block, because it's not getting reified.

    Definition Classes
    Metalevels
  39. def mirrorBuildCall(name: tools.nsc.Global.TermName, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  40. def mirrorCall(name: tools.nsc.Global.TermName, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  41. def mirrorFactoryCall(prefix: tools.nsc.Global.TermName, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  42. def mirrorFactoryCall(value: Product, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  43. def mirrorMirrorCall(name: tools.nsc.Global.TermName, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  44. def mirrorMirrorSelect(name: tools.nsc.Global.TermName): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  45. def mirrorSelect(name: tools.nsc.Global.TermName): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  46. def mirrorSelect(name: String): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  47. def mkList(args: List[tools.nsc.Global.Tree]): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  48. def mkListMap(args: List[tools.nsc.Global.Tree]): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  49. lazy val mkReificationPipeline: (tools.nsc.Global.Tree) => tools.nsc.Global.Tree
    Definition Classes
    Phases
  50. final def ne(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef
  51. final def notify(): Unit
    Definition Classes
    AnyRef
    Annotations
    @native()
  52. final def notifyAll(): Unit
    Definition Classes
    AnyRef
    Annotations
    @native()
  53. def origin(sym: tools.nsc.Global.Symbol): String
    Definition Classes
    GenUtils
  54. def path(fullname: String, mkName: (String) => tools.nsc.Global.Name): tools.nsc.Global.Tree

    An (unreified) path that refers to definition with given fully qualified name

    An (unreified) path that refers to definition with given fully qualified name

    mkName

    Creator for last portion of name (either TermName or TypeName)

    Definition Classes
    GenUtils
  55. lazy val reification: tools.nsc.Global.Tree

    For reifee and other reification parameters, generate a tree of the form

    For reifee and other reification parameters, generate a tree of the form

    {
      val $u: universe.type = <[ universe ]>
      val $m: $u.Mirror = <[ mirror ]>
      $u.Expr[T](rtree)       // if data is a Tree
      $u.TypeTag[T](rtree)    // if data is a Type
    }

    where

    • universe is the tree that represents the universe the result will be bound to.
    • mirror is the tree that represents the mirror the result will be initially bound to.
    • rtree is code that generates reifee at runtime.
    • T is the type that corresponds to data.

    This is not a method, but a value to indicate the fact that Reifier instances are a one-off.

  56. def reificationIsConcrete: Boolean

    Keeps track of whether this reification contains abstract type parameters

    Keeps track of whether this reification contains abstract type parameters

    Definition Classes
    GenTypes
  57. lazy val reifier: Reifier { val global: Reifier.this.global.type }
    Definition Classes
    Utils
  58. def reify(reifee: Any): tools.nsc.Global.Tree

    Reifies any supported value.

    Reifies any supported value. For internal use only, use reified instead.

    Definition Classes
    Reify
  59. def reifyAnnotationInfo(ann: tools.nsc.Global.AnnotationInfo): tools.nsc.Global.Tree
    Definition Classes
    GenAnnotationInfos
  60. def reifyBinding(tree: tools.nsc.Global.Tree): tools.nsc.Global.Tree
    Definition Classes
    StdAttachments
  61. def reifyBuildCall(name: tools.nsc.Global.TermName, args: Any*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  62. val reifyCopypaste: Boolean
    Definition Classes
    Utils
  63. val reifyDebug: Boolean
    Definition Classes
    Utils
  64. def reifyFlags(flags: tools.nsc.Global.FlagSet): tools.nsc.Global.Tree
    Definition Classes
    GenTrees
  65. def reifyFreeTerm(binding: tools.nsc.Global.Tree): tools.nsc.Global.Tree
    Definition Classes
    GenSymbols
  66. def reifyFreeType(binding: tools.nsc.Global.Tree): tools.nsc.Global.Tree
    Definition Classes
    GenSymbols
  67. def reifyList(xs: List[Any]): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  68. def reifyMirrorObject(x: Product): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  69. def reifyMirrorObject(name: String): tools.nsc.Global.Tree

    Reify a case object defined in Mirror

    Reify a case object defined in Mirror

    Definition Classes
    GenUtils
  70. def reifyModifiers(m: tools.nsc.Global.Modifiers): tools.nsc.Global.Tree
    Definition Classes
    GenTrees
  71. def reifyName(name: tools.nsc.Global.Name): tools.nsc.Global.Tree
    Definition Classes
    GenNames
  72. def reifyPosition(pos: tools.nsc.Global.Position): tools.nsc.Global.Tree
    Definition Classes
    GenPositions
  73. def reifyProduct(prefix: String, elements: List[Any]): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  74. def reifyProduct(x: Product): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  75. def reifySymDef(sym: tools.nsc.Global.Symbol): tools.nsc.Global.Tree
    Definition Classes
    GenSymbols
  76. def reifySymRef(sym: tools.nsc.Global.Symbol): tools.nsc.Global.Tree

    Reify a reference to a symbol

    Reify a reference to a symbol

    Definition Classes
    GenSymbols
  77. val reifyTrace: SimpleTracer
    Definition Classes
    Utils
  78. def reifyTree(tree: tools.nsc.Global.Tree): tools.nsc.Global.Tree

    Reify a tree.

    Reify a tree. For internal use only, use reified instead.

    Definition Classes
    GenTrees
  79. def reifyTreeSymbols: Boolean
    Definition Classes
    GenTrees
  80. def reifyTreeSyntactically(tree: tools.nsc.Global.Tree): tools.nsc.Global.Tree
    Definition Classes
    GenTrees
  81. def reifyTreeTypes: Boolean
    Definition Classes
    GenTrees
  82. def reifyType(tpe: tools.nsc.Global.Type): tools.nsc.Global.Tree

    Reify a type.

    Reify a type. For internal use only, use reified instead.

    Definition Classes
    GenTypes
  83. val reshape: tools.nsc.Global.AstTransformer { ... /* 2 definitions in type refinement */ }

    Rolls back certain changes that were introduced during typechecking of the reifee.

    Rolls back certain changes that were introduced during typechecking of the reifee.

    These include: * Undoing macro expansions * Replacing type trees with TypeTree(tpe) * Reassembling CompoundTypeTrees into reifiable form * Transforming Modifiers.annotations into Symbol.annotations * Transforming Annotated annotations into AnnotatedType annotations * Transforming Annotated(annot, expr) into Typed(expr, TypeTree(Annotated(annot, _)) * Non-idempotencies of the typechecker: https://github.com/scala/bug/issues/5464

    Definition Classes
    Reshape
  84. def scalaFactoryCall(name: String, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  85. def scalaFactoryCall(name: tools.nsc.Global.TermName, args: tools.nsc.Global.Tree*): tools.nsc.Global.Tree
    Definition Classes
    GenUtils
  86. def spliceType(tpe: tools.nsc.Global.Type): tools.nsc.Global.Tree
    Definition Classes
    GenTypes
  87. val state: State

    Encapsulates reifier state

    Encapsulates reifier state

    When untangling reifier symbol tables from the reifier itself, I discovered that encoding of a symbol table (e.g. producing corresponding reificode) might cause subsequent reification (e.g. when filling in signatures and annotations for syms).

    This is a mess in the face of nested reifications, splices and inlining of thereof, so I made SymbolTable immutable, which brought a significant amount of confidence.

    However that wasn't enough. Sure, symbol table became immutable, but the reifier still needed to mutate its symtab field during reification. This caused nasty desyncs between the table being encoded and the table of the underlying reifier, so I decided to encapsulate the entire state here, so that encoding can backup the state before it starts and restore it after it completes.

    Definition Classes
    States
  88. def symtab: SymbolTable

    Symbol table of the reifee.

    Symbol table of the reifee.

    Keeps track of auxiliary symbols that are necessary for this reification session. These include: 1) Free vars (terms, types and existentials), 2) Non-locatable symbols (sometimes, e.g. for RefinedTypes, we need to reify these; to do that we create their copies in the reificode) 3) Non-locatable symbols that are referred by #1, #2 and #3

    Exposes three main methods: 1) syms that lists symbols belonging to the table, 2) symXXX family of methods that provide information about the symbols in the table, 3) encode that renders the table into a list of trees (recursively populating #3 and setting up initialization code for #1, #2 and #3)

    Definition Classes
    GenSymbols
  89. final def synchronized[T0](arg0: => T0): T0
    Definition Classes
    AnyRef
  90. def termPath(fullname: String): tools.nsc.Global.Tree

    An (unreified) path that refers to term definition with given fully qualified name

    An (unreified) path that refers to term definition with given fully qualified name

    Definition Classes
    GenUtils
  91. def toString(): String
    Definition Classes
    AnyRef → Any
  92. final def wait(): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.InterruptedException])
  93. final def wait(arg0: Long, arg1: Int): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.InterruptedException])
  94. final def wait(arg0: Long): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.InterruptedException]) @native()
  95. object TypedOrAnnotated
    Definition Classes
    GenUtils
  96. object ApplyCall
    Definition Classes
    Extractors
  97. object BoundTerm
    Definition Classes
    Extractors
  98. object BoundType
    Definition Classes
    Extractors
  99. object FreeDef extends Utils.FreeDefExtractor
    Definition Classes
    Extractors
  100. object FreeRef
    Definition Classes
    Extractors
  101. object FreeTermDef extends Utils.FreeDefExtractor
    Definition Classes
    Extractors
  102. object FreeTypeDef extends Utils.FreeDefExtractor
    Definition Classes
    Extractors
  103. object ReifiedTree
    Definition Classes
    Extractors
  104. object ReifiedType
    Definition Classes
    Extractors
  105. object SymDef
    Definition Classes
    Extractors
  106. object TreeSplice
    Definition Classes
    Extractors
  107. object TypeRefToFreeType
    Definition Classes
    Extractors
  108. object reifiedNodeToString extends (tools.nsc.Global.Tree) => String
    Definition Classes
    NodePrinters
  109. object SymbolTable
    Definition Classes
    SymbolTables

Deprecated Value Members

  1. def formatted(fmtstr: String): String
    Implicit
    This member is added by an implicit conversion from Reifier toStringFormat[Reifier] performed by method StringFormat in scala.Predef.
    Definition Classes
    StringFormat
    Annotations
    @deprecated @inline()
    Deprecated

    (Since version 2.12.16) Use formatString.format(value) instead of value.formatted(formatString), or use the f"" string interpolator. In Java 15 and later, formatted resolves to the new method in String which has reversed parameters.

  2. def [B](y: B): (Reifier, B)
    Implicit
    This member is added by an implicit conversion from Reifier toArrowAssoc[Reifier] 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.

Inherited from Utils

Inherited from StdAttachments

Inherited from SymbolTables

Inherited from Extractors

Inherited from NodePrinters

Inherited from Errors

Inherited from Phases

Inherited from Reify

Inherited from GenUtils

Inherited from GenPositions

Inherited from GenAnnotationInfos

Inherited from GenTrees

Inherited from GenNames

Inherited from GenTypes

Inherited from GenSymbols

Inherited from Metalevels

Inherited from Calculate

Inherited from Reshape

Inherited from States

Inherited from AnyRef

Inherited from Any

Inherited by implicit conversion any2stringadd fromReifier to any2stringadd[Reifier]

Inherited by implicit conversion StringFormat fromReifier to StringFormat[Reifier]

Inherited by implicit conversion Ensuring fromReifier to Ensuring[Reifier]

Inherited by implicit conversion ArrowAssoc fromReifier to ArrowAssoc[Reifier]

Ungrouped