package dotty.tools.dotc
package printing
import core._
import Texts._, Types._, Flags._, Names._, Symbols._, NameOps._, Constants._
import Contexts.Context, Scopes.Scope, Denotations.Denotation, Annotations.Annotation
import StdNames.nme
import ast.Trees._, ast.UntypedTrees.untpd
import java.lang.Integer.toOctalString
import scala.annotation.switch
class PlainPrinter(_ctx: Context) extends Printer {
protected[this] implicit val ctx = _ctx
protected def maxToTextRecursions = 100
protected final def controlled(op: => Text): Text =
if (ctx.toTextRecursions < maxToTextRecursions)
try {
ctx.toTextRecursions += 1
op
} finally {
ctx.toTextRecursions -= 1
}
else {
recursionLimitExceeeded()
"..."
}
protected def recursionLimitExceeeded() = {
ctx.warning("Exceeded recursion depth attempting to print type.")
(new Throwable).printStackTrace
}
/** Render elements alternating with `sep` string */
protected def toText(elems: Traversable[Showable], sep: String) =
Text(elems map (_ toText this), sep)
/** Render element within highest precedence */
protected def toTextLocal(elem: Showable): Text =
atPrec(DotPrec) { elem.toText(this) }
/** Render element within lowest precedence */
protected def toTextGlobal(elem: Showable): Text =
atPrec(GlobalPrec) { elem.toText(this) }
protected def toTextLocal(elems: Traversable[Showable], sep: String) =
atPrec(DotPrec) { toText(elems, sep) }
protected def toTextGlobal(elems: Traversable[Showable], sep: String) =
atPrec(GlobalPrec) { toText(elems, sep) }
/** If the name of the symbol's owner should be used when you care about
* seeing an interesting name: in such cases this symbol is e.g. a method
* parameter with a synthetic name, a constructor named "this", an object
* "package", etc. The kind string, if non-empty, will be phrased relative
* to the name of the owner.
*/
protected def hasMeaninglessName(sym: Symbol) = (
(sym is Param) && sym.owner.isSetter // x$1
|| sym.isClassConstructor // this
|| (sym.name == nme.PACKAGE) // package
)
def nameString(name: Name): String = name.toString + {
if (ctx.settings.debugNames.value)
if (name.isLocalName) "/L"
else if (name.isTypeName) "/T"
else "/V"
else ""
}
def toText(name: Name): Text = Str(nameString(name))
/** String representation of a name used in a refinement
* In refined printing this undoes type parameter expansion
*/
protected def refinementNameString(tp: RefinedType) = nameString(tp.refinedName)
/** String representation of a refinement */
protected def toTextRefinement(rt: RefinedType) =
(refinementNameString(rt) ~ toTextRHS(rt.refinedInfo)).close
/** The longest sequence of refinement types, starting at given type
* and following parents.
*/
private def refinementChain(tp: Type): List[Type] =
tp :: (tp match {
case RefinedType(parent, _) => refinementChain(parent)
case _ => Nil
})
def toText(tp: Type): Text = controlled {
tp match {
case tp: TypeType =>
toTextRHS(tp)
case tp: SingletonType =>
val pre = toTextPrefix(tp)
if (pre.lastLine.endsWith(".")) pre ~ "type"
else fullNameString(tp.typeSymbol.skipPackageObject) ~ ".type"
case TypeRef(pre, name) =>
toTextPrefix(pre) ~ nameString(tp.typeSymbol)
case tp: RefinedType =>
// return tp.toString // !!! DEBUG
val parent :: (refined: List[RefinedType]) =
refinementChain(tp).reverse
toTextLocal(parent) ~ "{" ~ Text(refined map toTextRefinement, "; ").close ~ "}"
case AndType(tp1, tp2) =>
changePrec(AndPrec) { toText(tp1) ~ " & " ~ toText(tp2) }
case OrType(tp1, tp2) =>
changePrec(OrPrec) { toText(tp1) ~ " | " ~ toText(tp2) }
case ErrorType =>
"<error>"
case WildcardType =>
"?"
case NoType =>
"<notype>"
case NoPrefix =>
"<noprefix>"
case tp: MethodType =>
def paramText(name: TermName, tp: Type) = toText(name) ~ ": " ~ toText(tp)
changePrec(GlobalPrec) {
(if (tp.isImplicit) "(implicit " else "(") ~
Text((tp.paramNames, tp.paramTypes).zipped map paramText, ", ") ~
")" ~ toText(tp.resultType)
}
case tp: ExprType =>
changePrec(GlobalPrec) { "=> " ~ toText(tp.resultType) }
case tp: PolyType =>
def paramText(name: TypeName, bounds: TypeBounds) = toText(polyParamName(name)) ~ ": " ~ toText(bounds)
changePrec(GlobalPrec) {
"[" ~
Text((tp.paramNames, tp.paramBounds).zipped map paramText, ", ") ~
"]" ~ toText(tp.resultType)
}
case PolyParam(pt, n) =>
toText(polyParamName(pt.paramNames(n)))
case AnnotatedType(annot, tpe) =>
toTextLocal(tpe) ~ " " ~ toText(annot)
case _ =>
tp.fallbackToText(this)
}
}.close
protected def polyParamName(name: TypeName): TypeName = name
/** The name of the symbol without a unique id. Under refined printing,
* the decoded original name.
*/
protected def simpleNameString(sym: Symbol): String = nameString(sym.name)
/** The unique id of symbol, after a # */
protected def idString(sym: Symbol): String =
if (ctx.settings.uniqid.value) "#" + sym.id else ""
def nameString(sym: Symbol): String = simpleNameString(sym) + idString(sym)
def fullNameString(sym: Symbol): String =
if (sym.isRoot || sym == NoSymbol || sym.owner.isEffectiveRoot)
nameString(sym)
else
fullNameString(sym.effectiveOwner.enclosingClass) + "." + nameString(sym)
protected def objectPrefix = "object "
protected def packagePrefix = "package "
protected def trimPrefix(text: Text) =
text.stripPrefix(objectPrefix).stripPrefix(packagePrefix)
/** The string representation of this type used as a prefix */
protected def toTextPrefix(tp: Type): Text = controlled {
tp match {
case tp @ TermRef(pre, name) =>
toTextPrefix(pre) ~ nameString(tp.symbol) ~ "."
case ThisType(cls) =>
nameString(cls) + ".this."
case SuperType(thistpe, _) =>
toTextPrefix(thistpe).map(_.replaceAll("""\bthis\.$""", "super."))
case tp @ ConstantType(value) =>
toTextLocal(tp.underlying) ~ "(" ~ toText(value) ~ ")."
case MethodParam(mt, idx) =>
nameString(mt.paramNames(idx)) + "."
case RefinedThis(_) =>
"this."
case NoPrefix =>
""
case _ =>
trimPrefix(toTextLocal(tp)) ~ "#"
}
}
protected def isOmittablePrefix(sym: Symbol) =
(defn.UnqualifiedOwners contains sym) || isEmptyPrefix(sym)
protected def isEmptyPrefix(sym: Symbol) =
sym.isEffectiveRoot || sym.isAnonymousClass || sym.name.isReplWrapperName
/** String representation of a definition's type following its name */
protected def toTextRHS(tp: Type): Text = controlled {
tp match {
case TypeBounds(lo, hi) =>
if (lo eq hi)
" = " ~ toText(lo)
else
(if (lo == defn.NothingType) Text() else " >: " ~ toText(lo)) ~
(if (hi == defn.AnyType) Text() else " <: " ~ toText(hi))
case ClassInfo(pre, cls, cparents, decls, optSelfType) =>
val preText = toTextLocal(pre)
val (tparams, otherDecls) = decls.toList partition treatAsTypeParam
val tparamsText =
if (tparams.isEmpty) Text() else ("[" ~ dclsText(tparams) ~ "]").close
val selfText =
if (optSelfType.exists)
"this: " ~ atPrec(InfixPrec) { toText(optSelfType) } ~ " =>"
else Text()
val parentsText = Text(cparents.map(p =>
toTextLocal(reconstituteParent(cls, p))), " with ")
val trueDecls = otherDecls.filterNot(treatAsTypeArg)
val declsText = if (trueDecls.isEmpty) Text() else dclsText(trueDecls)
tparamsText ~ " extends " ~ parentsText ~ "{" ~ selfText ~ declsText ~
"} at " ~ preText
case _ =>
": " ~ toTextGlobal(tp)
}
}
protected def treatAsTypeParam(sym: Symbol): Boolean = false
protected def treatAsTypeArg(sym: Symbol): Boolean = false
protected def reconstituteParent(cls: ClassSymbol, parent: Type): Type = parent
/** String representation of symbol's kind. */
def kindString(sym: Symbol): String = {
val flags = sym.flagsUNSAFE
if (flags is PackageClass) "package class"
else if (flags is PackageVal) "package"
else if (sym.isPackageObject)
if (sym.isClass) "package object class"
else "package object"
else if (sym.isAnonymousClass) "anonymous class"
else if (flags is ModuleClass) "module class"
else if (flags is ModuleVal) "module"
else if (flags is ImplClass) "implementation class"
else if (flags is Trait) "trait"
else if (sym.isClass) "class"
else if (sym.isType) "type"
else if (sym.isGetter) "getter"
else if (sym.isSetter) "setter"
else if (flags is Lazy) "lazy value"
else if (flags is Mutable) "variable"
else if (sym.isClassConstructor && sym.isPrimaryConstructor) "primary constructor"
else if (sym.isClassConstructor) "constructor"
else if (sym.isSourceMethod) "method"
else if (sym.isTerm) "value"
else ""
}
/** String representation of symbol's definition key word */
protected def keyString(sym: Symbol): String = {
val flags = sym.flagsUNSAFE
if (flags is JavaInterface) "interface"
else if ((flags is Trait) && !(flags is ImplClass)) "trait"
else if (sym.isClass) "class"
else if (sym.isType) "type"
else if (flags is Mutable) "var"
else if (flags is Package) "package"
else if (flags is Module) "object"
else if (sym.isSourceMethod) "def"
else if (sym.isTerm && (!(flags is Param))) "val"
else ""
}
/** String representation of symbol's flags */
protected def toTextFlags(sym: Symbol): Text =
Text(sym.flags.flagStrings map stringToText, " ")
/** String representation of symbol's variance or "" if not applicable */
protected def varianceString(sym: Symbol): String = sym.variance match {
case -1 => "-"
case 1 => "+"
case _ => ""
}
def dclText(sym: Symbol): Text =
(toTextFlags(sym) ~~ keyString(sym) ~~
(varianceString(sym) ~ nameString(sym)) ~ toTextRHS(sym.info)).close
def toText(sym: Symbol): Text =
(kindString(sym) ~~ {
if (hasMeaninglessName(sym)) simpleNameString(sym.owner) + idString(sym)
else nameString(sym)
}).close
def locationText(sym: Symbol): Text = {
val owns = sym.effectiveOwner
if (owns.isClass && !isEmptyPrefix(owns)) " in " ~ toText(owns) else Text()
}
def locatedText(sym: Symbol): Text =
(toText(sym) ~ locationText(sym)).close
def toText(denot: Denotation): Text = toText(denot.symbol) ~ "/D"
@switch private def escapedChar(ch: Char): String = ch match {
case '\b' => "\\b"
case '\t' => "\\t"
case '\n' => "\\n"
case '\f' => "\\f"
case '\r' => "\\r"
case '"' => "\\\""
case '\'' => "\\\'"
case '\\' => "\\\\"
case _ => if (ch.isControl) "\\0" + toOctalString(ch) else String.valueOf(ch)
}
def toText(const: Constant): Text = const.tag match {
case StringTag => "\"" + escapedString(const.value.toString) + "\""
case ClazzTag => "classOf[" ~ toText(const.tpe) ~ "]"
case CharTag => s"'${escapedChar(const.charValue)}'"
case LongTag => const.longValue.toString + "L"
case EnumTag => const.symbolValue.name.toString
case _ => String.valueOf(const.value)
}
def toText(annot: Annotation): Text = s"@${annot.symbol.name}" // for now
protected def escapedString(str: String): String = str flatMap escapedChar
def dclsText(syms: List[Symbol], sep: String): Text = Text(syms map dclText, sep)
def toText(sc: Scope): Text =
("Scope{" ~ dclsText(sc.toList) ~ "}").close
def toText[T >: Untyped](tree: Tree[T]): Text = {
tree match {
case node: Positioned =>
def toTextElem(elem: Any): Text = elem match {
case elem: Showable => elem.toText(this)
case elem: List[_] => "List(" ~ Text(elem map toTextElem, ",") ~ ")"
case elem => elem.toString
}
val nodeName = node.productPrefix
val elems =
Text(node.productIterator.map(toTextElem).toList, ", ")
val tpSuffix =
if (ctx.settings.printtypes.value && tree.hasType)
" | " ~ toText(tree.tpe.asInstanceOf[Type])
else
Text()
nodeName ~ "(" ~ elems ~ tpSuffix ~ ")" ~ node.pos.toString
case _ =>
tree.fallbackToText(this)
}
}.close // todo: override in refined printer
}