org.json4sbt.scalap.SeqRule.scala Maven / Gradle / Ivy
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// -----------------------------------------------------------------------------
//
// Scalax - The Scala Community Library
// Copyright (c) 2005-8 The Scalax Project. All rights reserved.
//
// The primary distribution site is http://scalax.scalaforge.org/
//
// This software is released under the terms of the Revised BSD License.
// There is NO WARRANTY. See the file LICENSE for the full text.
//
// -----------------------------------------------------------------------------
package org.json4sbt.scalap
import language.postfixOps
/**
* A workaround for the difficulties of dealing with
* a contravariant 'In' parameter type...
*/
class InRule[In, +Out, +A, +X](rule: Rule[In, Out, A, X]) {
def mapRule[Out2, B, Y](f: Result[Out, A, X] => In => Result[Out2, B, Y]): Rule[In, Out2, B, Y] = rule.factory.rule {
in: In => f(rule(in))(in)
}
/** Creates a rule that succeeds only if the original rule would fail on the given context. */
def unary_! : Rule[In, In, Unit, Nothing] = mapRule {
case Success(_, _) => in: In => Failure
case _ => in: In => Success(in, ())
}
/** Creates a rule that succeeds if the original rule succeeds, but returns the original input. */
def & : Rule[In, In, A, X] = mapRule {
case Success(_, a) => in: In => Success(in, a)
case Failure => in: In => Failure
case Error(x) => in: In => Error(x)
}
}
class SeqRule[S, +A, +X](rule: Rule[S, S, A, X]) {
import rule.factory._
def ? = rule mapRule {
case Success(out, a) => in: S => Success(out, Some(a))
case Failure => in: S => Success(in, None)
case Error(x) => in: S => Error(x)
}
/** Creates a rule that always succeeds with a Boolean value.
* Value is 'true' if this rule succeeds, 'false' otherwise */
def -? = ? map { _ isDefined }
def * = from[S] {
// tail-recursive function with reverse list accumulator
def rep(in: S, acc: List[A]): Result[S, List[A], X] = rule(in) match {
case Success(out, a) => rep(out, a :: acc)
case Failure => Success(in, acc.reverse)
case err: Error[_] => err
}
in => rep(in, Nil)
}
def + = rule ~++ *
def ~>?[B >: A, X2 >: X](f: => Rule[S, S, B => B, X2]) = for (a <- rule; fs <- f?) yield fs.foldLeft[B](a) { (b, f) => f(b) }
def ~>*[B >: A, X2 >: X](f: => Rule[S, S, B => B, X2]) = for (a <- rule; fs <- f*) yield fs.foldLeft[B](a) { (b, f) => f(b) }
def ~*~[B >: A, X2 >: X](join: => Rule[S, S, (B, B) => B, X2]) = {
this ~>* (for (f <- join; a <- rule) yield f(_: B, a))
}
/** Repeats this rule one or more times with a separator (which is discarded) */
def +/[X2 >: X](sep: => Rule[S, S, Any, X2]) = rule ~++ (sep -~ rule *)
/** Repeats this rule zero or more times with a separator (which is discarded) */
def */[X2 >: X](sep: => Rule[S, S, Any, X2]) = +/(sep) | state[S].nil
def *~-[Out, X2 >: X](end: => Rule[S, Out, Any, X2]) = (rule - end *) ~- end
def +~-[Out, X2 >: X](end: => Rule[S, Out, Any, X2]) = (rule - end +) ~- end
/** Repeats this rule num times */
def times(num: Int): Rule[S, S, Seq[A], X] = from[S] {
val result = new scala.collection.mutable.ArraySeq[A](num)
// more compact using HoF but written this way so it's tail-recursive
def rep(i: Int, in: S): Result[S, Seq[A], X] = {
if (i == num) Success(in, result)
else rule(in) match {
case Success(out, a) => {
result(i) = a
rep(i + 1, out)
}
case Failure => Failure
case err: Error[_] => err
}
}
in => rep(0, in)
}
}
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