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package scala
package reflect
package macros
package whitebox
/**
* <span class="badge badge-red" style="float: right;">EXPERIMENTAL</span>
*
* The whitebox Scala macros context.
*
* See [[scala.reflect.macros.package the overview page]] for a description of how macros work. This documentation
* entry provides information on the API available to macro writers.
*
* A macro context wraps a compiler universe exposed in `universe` and having type [[scala.reflect.macros.Universe]].
* This type is a refinement over the generic reflection API provided in [[scala.reflect.api.Universe]]. The
* extended Universe provides mutability for reflection artifacts (e.g. macros can change types of compiler trees,
* add annotation to symbols representing definitions, etc) and exposes some internal compiler functionality
* such as `Symbol.deSkolemize` or `Tree.attachments`.
*
* Another fundamental part of a macro context is `macroApplication`, which provides access to the tree undergoing
* macro expansion. Parts of this tree can be found in arguments of the corresponding macro implementations and
* in `prefix`, but `macroApplication` gives the full picture.
*
* Other than that, macro contexts provide facilities for typechecking, exploring the compiler's symbol table and
* enclosing trees and compilation units, evaluating trees, logging warnings/errors and much more.
* Refer to the documentation of top-level traits in this package to learn the details.
*
* If a macro def refers to a macro impl that uses `whitebox.Context`, then this macro def becomes a whitebox macro,
* gaining the ability to refine the type of its expansion beyond its official return type, which enables a number of important use cases.
* Blackbox macros, i.e. the ones defined with `blackbox.Context`, can't do that, so they are less powerful.
* However blackbox macros are also going to enjoy better support than whitebox macros, so choose wisely.
* See the [[http://docs.scala-lang.org/overviews/macros/overview.html Macros Guide]] for more information.
*
* @see `scala.reflect.macros.blackbox.Context`
*/
trait Context extends blackbox.Context {
/** @inheritdoc
*/
def openMacros: List[Context]
/** @inheritdoc
*/
def enclosingMacros: List[Context]
/** Information about one of the currently considered implicit candidates.
* Candidates are used in plural form, because implicit parameters may themselves have implicit parameters,
* hence implicit searches can recursively trigger other implicit searches.
*
* `pre` and `sym` provide information about the candidate itself.
* `pt` and `tree` store the parameters of the implicit search the candidate is participating in.
*/
case class ImplicitCandidate(pre: Type, sym: Symbol, pt: Type, tree: Tree)
/** Information about one of the currently considered implicit candidates.
* Candidates are used in plural form, because implicit parameters may themselves have implicit parameters,
* hence implicit searches can recursively trigger other implicit searches.
*
* Can be useful to get information about an application with an implicit parameter that is materialized during current macro expansion.
* If we're in an implicit macro being expanded, it's included in this list.
*
* Unlike `enclosingImplicits`, this is a def, which means that it gets recalculated on every invocation,
* so it might change depending on what is going on during macro expansion.
*/
def openImplicits: List[ImplicitCandidate]
/** Information about one of the currently considered implicit candidates.
* Candidates are used in plural form, because implicit parameters may themselves have implicit parameters,
* hence implicit searches can recursively trigger other implicit searches.
*
* Can be useful to get information about an application with an implicit parameter that is materialized during current macro expansion.
* If we're in an implicit macro being expanded, it's included in this list.
*
* Unlike `openImplicits`, this is a val, which means that it gets initialized when the context is created
* and always stays the same regardless of whatever happens during macro expansion.
*/
def enclosingImplicits: List[ImplicitCandidate]
}
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