From 06a3d47ea9fd1b67b3acba9d115a16d18549e377 Mon Sep 17 00:00:00 2001 From: Felix Mulder Date: Wed, 26 Oct 2016 16:19:35 +0200 Subject: Move sjs, make sure that partest compiles everything in dirs --- library/src/scalaShadowing/language.scala | 198 ++++++++++++++++++++++++++++++ 1 file changed, 198 insertions(+) create mode 100644 library/src/scalaShadowing/language.scala (limited to 'library') diff --git a/library/src/scalaShadowing/language.scala b/library/src/scalaShadowing/language.scala new file mode 100644 index 000000000..e2fc5ec61 --- /dev/null +++ b/library/src/scalaShadowing/language.scala @@ -0,0 +1,198 @@ +/* __ *\ +** ________ ___ / / ___ Scala API ** +** / __/ __// _ | / / / _ | (c) 2003-2015, LAMP/EPFL ** +** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ ** +** /____/\___/_/ |_/____/_/ | | ** +** |/ ** +\* */ +package scalaShadowing + +/** + * The `scala.language` object controls the language features available to the programmer, as proposed in the + * [[https://docs.google.com/document/d/1nlkvpoIRkx7at1qJEZafJwthZ3GeIklTFhqmXMvTX9Q/edit '''SIP-18 document''']]. + * + * Each of these features has to be explicitly imported into the current scope to become available: + * {{{ + * import language.postfixOps // or language._ + * List(1, 2, 3) reverse + * }}} + * + * The language features are: + * - [[dynamics `dynamics`]] enables defining calls rewriting using the [[scala.Dynamic `Dynamic`]] trait + * - [[postfixOps `postfixOps`]] enables postfix operators + * - [[reflectiveCalls `reflectiveCalls`]] enables using structural types + * - [[implicitConversions `implicitConversions`]] enables defining implicit methods and members + * - [[higherKinds `higherKinds`]] enables writing higher-kinded types + * - [[existentials `existentials`]] enables writing existential types + * - [[experimental `experimental`]] contains newer features that have not yet been tested in production + * + * and, for dotty: + * + * - [[Scala2 `Scala2`] backwards compatibility mode for Scala2 + * - [[noAtoTupling `noAutoTupling`]] disable auto-tupling + * + * @groupname production Language Features + * @groupname experimental Experimental Language Features + * @groupprio experimental 10 + * + * Dotty-specific features come at the end. + * + * Note: Due to the more restricted language import mechanism in dotty (only + * imports count, implicits are disregarded) we don't need the constructions + * of the inherited language features. A simple object for each feature is + * sufficient. + */ +object language { + + import languageFeature._ + + /** Where enabled, direct or indirect subclasses of trait scala.Dynamic can + * be defined. Unless dynamics is enabled, a definition of a class, trait, + * or object that has Dynamic as a base trait is rejected. Dynamic member + * selection of existing subclasses of trait Dynamic are unaffected; + * they can be used anywhere. + * + * '''Why introduce the feature?''' To enable flexible DSLs and convenient interfacing + * with dynamic languages. + * + * '''Why control it?''' Dynamic member selection can undermine static checkability + * of programs. Furthermore, dynamic member selection often relies on reflection, + * which is not available on all platforms. + * + * @group production + */ + @volatile implicit lazy val dynamics: dynamics = languageFeature.dynamics + + /** Only where enabled, postfix operator notation `(expr op)` will be allowed. + * + * '''Why keep the feature?''' Several DSLs written in Scala need the notation. + * + * '''Why control it?''' Postfix operators interact poorly with semicolon inference. + * Most programmers avoid them for this reason. + * + * @group production + */ + @volatile implicit lazy val postfixOps: postfixOps = languageFeature.postfixOps + + /** Only where enabled, accesses to members of structural types that need + * reflection are supported. Reminder: A structural type is a type of the form + * `Parents { Decls }` where `Decls` contains declarations of new members that do + * not override any member in `Parents`. To access one of these members, a + * reflective call is needed. + * + * '''Why keep the feature?''' Structural types provide great flexibility because + * they avoid the need to define inheritance hierarchies a priori. Besides, + * their definition falls out quite naturally from Scala’s concept of type refinement. + * + * '''Why control it?''' Reflection is not available on all platforms. Popular tools + * such as ProGuard have problems dealing with it. Even where reflection is available, + * reflective dispatch can lead to surprising performance degradations. + * + * @group production + */ + @volatile implicit lazy val reflectiveCalls: reflectiveCalls = languageFeature.reflectiveCalls + + /** Only where enabled, definitions of implicit conversions are allowed. An + * implicit conversion is an implicit value of unary function type `A => B`, + * or an implicit method that has in its first parameter section a single, + * non-implicit parameter. Examples: + * + * {{{ + * implicit def stringToInt(s: String): Int = s.length + * implicit val conv = (s: String) => s.length + * implicit def listToX(xs: List[T])(implicit f: T => X): X = ... + * }}} + * + * implicit values of other types are not affected, and neither are implicit + * classes. + * + * '''Why keep the feature?''' Implicit conversions are central to many aspects + * of Scala’s core libraries. + * + * '''Why control it?''' Implicit conversions are known to cause many pitfalls + * if over-used. And there is a tendency to over-use them because they look + * very powerful and their effects seem to be easy to understand. Also, in + * most situations using implicit parameters leads to a better design than + * implicit conversions. + * + * @group production + */ + @volatile implicit lazy val implicitConversions: implicitConversions = languageFeature.implicitConversions + + /** Only where this flag is enabled, higher-kinded types can be written. + * + * '''Why keep the feature?''' Higher-kinded types enable the definition of very general + * abstractions such as functor, monad, or arrow. A significant set of advanced + * libraries relies on them. Higher-kinded types are also at the core of the + * scala-virtualized effort to produce high-performance parallel DSLs through staging. + * + * '''Why control it?''' Higher kinded types in Scala lead to a Turing-complete + * type system, where compiler termination is no longer guaranteed. They tend + * to be useful mostly for type-level computation and for highly generic design + * patterns. The level of abstraction implied by these design patterns is often + * a barrier to understanding for newcomers to a Scala codebase. Some syntactic + * aspects of higher-kinded types are hard to understand for the uninitiated and + * type inference is less effective for them than for normal types. Because we are + * not completely happy with them yet, it is possible that some aspects of + * higher-kinded types will change in future versions of Scala. So an explicit + * enabling also serves as a warning that code involving higher-kinded types + * might have to be slightly revised in the future. + * + * @group production + */ + @volatile implicit lazy val higherKinds: higherKinds = languageFeature.higherKinds + + /** Only where enabled, existential types that cannot be expressed as wildcard + * types can be written and are allowed in inferred types of values or return + * types of methods. Existential types with wildcard type syntax such as `List[_]`, + * or `Map[String, _]` are not affected. + * + * '''Why keep the feature?''' Existential types are needed to make sense of Java’s wildcard + * types and raw types and the erased types of run-time values. + * + * '''Why control it?''' Having complex existential types in a code base usually makes + * application code very brittle, with a tendency to produce type errors with + * obscure error messages. Therefore, going overboard with existential types + * is generally perceived not to be a good idea. Also, complicated existential types + * might be no longer supported in a future simplification of the language. + * + * @group production + */ + @volatile implicit lazy val existentials: existentials = languageFeature.existentials + + /** The experimental object contains features that have been recently added but have not + * been thoroughly tested in production yet. + * + * Experimental features '''may undergo API changes''' in future releases, so production + * code should not rely on them. + * + * Programmers are encouraged to try out experimental features and + * [[http://issues.scala-lang.org report any bugs or API inconsistencies]] + * they encounter so they can be improved in future releases. + * + * @group experimental + */ + object experimental { + + import languageFeature.experimental._ + + /** Where enabled, macro definitions are allowed. Macro implementations and + * macro applications are unaffected; they can be used anywhere. + * + * '''Why introduce the feature?''' Macros promise to make the language more regular, + * replacing ad-hoc language constructs with a general powerful abstraction + * capability that can express them. Macros are also a more disciplined and + * powerful replacement for compiler plugins. + * + * '''Why control it?''' For their very power, macros can lead to code that is hard + * to debug and understand. + */ + @volatile implicit lazy val macros: macros = languageFeature.experimental.macros + } + + /** Where imported, a backwards compatibility mode for Scala2 is enabled */ + object Scala2 + + /** Where imported, auto-tupling is disabled */ + object noAutoTupling +} -- cgit v1.2.3