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/* NSC -- new Scala compiler
* Copyright 2005-2012 LAMP/EPFL
* @author Paul Phillips
*/
package scala.reflect
package internal
trait TypeDebugging {
self: SymbolTable =>
import definitions._
// @M toString that is safe during debugging (does not normalize, ...)
object typeDebug {
private def to_s(x: Any): String = x match {
// otherwise case classes are caught looking like products
case _: Tree | _: Type => "" + x
case x: TraversableOnce[_] => x mkString ", "
case x: Product => x.productIterator mkString ("(", ", ", ")")
case _ => "" + x
}
def ptIndent(x: Any) = ("" + x).replaceAll("\\n", " ")
def ptBlock(label: String, pairs: (String, Any)*): String = {
if (pairs.isEmpty) label + "{ }"
else {
val width = (pairs map (_._1.length)).max
val fmt = "%-" + (width + 1) + "s %s"
val strs = pairs map { case (k, v) => fmt.format(k, to_s(v)) }
strs.mkString(label + " {\n ", "\n ", "\n}")
}
}
def ptLine(label: String, pairs: (String, Any)*): String = {
val strs = pairs map { case (k, v) => k + "=" + to_s(v) }
strs.mkString(label + ": ", ", ", "")
}
def ptTree(t: Tree) = t match {
case PackageDef(pid, _) => "package " + pid
case ModuleDef(_, name, _) => "object " + name
case ClassDef(_, name, tparams, _) => "class " + name + str.brackets(tparams)
case _ => to_s(t)
}
object str {
def parentheses(xs: List[_]): String = xs.mkString("(", ", ", ")")
def brackets(xs: List[_]): String = if (xs.isEmpty) "" else xs.mkString("[", ", ", "]")
def tparams(tparams: List[Type]): String = brackets(tparams map debug)
def parents(ps: List[Type]): String = (ps map debug).mkString(" with ")
def refine(defs: Scope): String = defs.toList.mkString("{", " ;\n ", "}")
}
private def debug(tp: Type): String = tp match {
case TypeRef(pre, sym, args) => debug(pre) + "." + sym.nameString + str.tparams(args)
case ThisType(sym) => sym.nameString + ".this"
case SingleType(pre, sym) => debug(pre) +"."+ sym.nameString +".type"
case RefinedType(parents, defs) => str.parents(parents) + str.refine(defs)
case ClassInfoType(parents, defs, clazz) => "class "+ clazz.nameString + str.parents(parents) + str.refine(defs)
case PolyType(tparams, result) => str.brackets(tparams) + " " + debug(result)
case TypeBounds(lo, hi) => ">: "+ debug(lo) +" <: "+ debug(hi)
case tv @ TypeVar(_, _) => tv.toString
case ExistentialType(tparams, qtpe) => "forSome "+ str.brackets(tparams) + " " + debug(qtpe)
case _ => "?"+tp.getClass.getName+"?"//tp.toString might produce cyclic error...
}
def debugString(tp: Type) = debug(tp)
}
def paramString(tp: Type) = typeDebug.str parentheses (tp.params map (_.defString))
def typeParamsString(tp: Type) = typeDebug.str brackets (tp.typeParams map (_.defString))
def typeArgsString(tp: Type) = typeDebug.str brackets (tp.typeArgs map (_.safeToString))
def debugString(tp: Type) = typeDebug debugString tp
}
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