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Diffstat (limited to 'test/files/scalacheck/treemap.scala')
-rw-r--r-- | test/files/scalacheck/treemap.scala | 154 |
1 files changed, 154 insertions, 0 deletions
diff --git a/test/files/scalacheck/treemap.scala b/test/files/scalacheck/treemap.scala new file mode 100644 index 0000000000..f672637c57 --- /dev/null +++ b/test/files/scalacheck/treemap.scala @@ -0,0 +1,154 @@ +import collection.immutable._ +import org.scalacheck._ +import Prop._ +import Gen._ +import Arbitrary._ +import util._ +import Buildable._ + +object Test extends Properties("TreeMap") { + def genTreeMap[A: Arbitrary: Ordering, B: Arbitrary]: Gen[TreeMap[A, B]] = + for { + keys <- listOf(arbitrary[A]) + values <- listOfN(keys.size, arbitrary[B]) + } yield TreeMap(keys zip values: _*) + implicit def arbTreeMap[A : Arbitrary : Ordering, B : Arbitrary] = Arbitrary(genTreeMap[A, B]) + + property("foreach/iterator consistency") = forAll { (subject: TreeMap[Int, String]) => + val it = subject.iterator + var consistent = true + subject.foreach { element => + consistent &&= it.hasNext && element == it.next + } + consistent + } + + property("worst-case tree height is iterable") = forAll(choose(0, 10), arbitrary[Boolean]) { (n: Int, even: Boolean) => + /* + * According to "Ralf Hinze. Constructing red-black trees" [http://www.cs.ox.ac.uk/ralf.hinze/publications/#P5] + * you can construct a skinny tree of height 2n by inserting the elements [1 .. 2^(n+1) - 2] and a tree of height + * 2n+1 by inserting the elements [1 .. 3 * 2^n - 2], both in reverse order. + * + * Since we allocate a fixed size buffer in the iterator (based on the tree size) we need to ensure + * it is big enough for these worst-case trees. + */ + val highest = if (even) (1 << (n+1)) - 2 else 3*(1 << n) - 2 + val values = (1 to highest).reverse + val subject = TreeMap(values zip values: _*) + val it = subject.iterator + try { while (it.hasNext) it.next; true } catch { case _ => false } + } + + property("sorted") = forAll { (subject: TreeMap[Int, String]) => (subject.size >= 3) ==> { + subject.zip(subject.tail).forall { case (x, y) => x._1 < y._1 } + }} + + property("contains all") = forAll { (arr: List[(Int, String)]) => + val subject = TreeMap(arr: _*) + arr.map(_._1).forall(subject.contains(_)) + } + + property("size") = forAll { (elements: List[(Int, Int)]) => + val subject = TreeMap(elements: _*) + elements.map(_._1).distinct.size == subject.size + } + + property("toSeq") = forAll { (elements: List[(Int, Int)]) => + val subject = TreeMap(elements: _*) + elements.map(_._1).distinct.sorted == subject.toSeq.map(_._1) + } + + property("head") = forAll { (elements: List[Int]) => elements.nonEmpty ==> { + val subject = TreeMap(elements zip elements: _*) + elements.min == subject.head._1 + }} + + property("last") = forAll { (elements: List[Int]) => elements.nonEmpty ==> { + val subject = TreeMap(elements zip elements: _*) + elements.max == subject.last._1 + }} + + property("head/tail identity") = forAll { (subject: TreeMap[Int, String]) => subject.nonEmpty ==> { + subject == (subject.tail + subject.head) + }} + + property("init/last identity") = forAll { (subject: TreeMap[Int, String]) => subject.nonEmpty ==> { + subject == (subject.init + subject.last) + }} + + property("take") = forAll { (subject: TreeMap[Int, String]) => + val n = choose(0, subject.size).sample.get + n == subject.take(n).size && subject.take(n).forall(elt => subject.get(elt._1) == Some(elt._2)) + } + + property("drop") = forAll { (subject: TreeMap[Int, String]) => + val n = choose(0, subject.size).sample.get + (subject.size - n) == subject.drop(n).size && subject.drop(n).forall(elt => subject.get(elt._1) == Some(elt._2)) + } + + property("take/drop identity") = forAll { (subject: TreeMap[Int, String]) => + val n = choose(-1, subject.size + 1).sample.get + subject == subject.take(n) ++ subject.drop(n) + } + + property("splitAt") = forAll { (subject: TreeMap[Int, String]) => + val n = choose(-1, subject.size + 1).sample.get + val (prefix, suffix) = subject.splitAt(n) + prefix == subject.take(n) && suffix == subject.drop(n) + } + + def genSliceParms = for { + tree <- genTreeMap[Int, String] + from <- choose(0, tree.size) + until <- choose(from, tree.size) + } yield (tree, from, until) + + property("slice") = forAll(genSliceParms) { case (subject, from, until) => + val slice = subject.slice(from, until) + slice.size == until - from && subject.toSeq == subject.take(from).toSeq ++ slice ++ subject.drop(until) + } + + property("takeWhile") = forAll { (subject: TreeMap[Int, String]) => + val result = subject.takeWhile(_._1 < 0) + result.forall(_._1 < 0) && result == subject.take(result.size) + } + + property("dropWhile") = forAll { (subject: TreeMap[Int, String]) => + val result = subject.dropWhile(_._1 < 0) + result.forall(_._1 >= 0) && result == subject.takeRight(result.size) + } + + property("span identity") = forAll { (subject: TreeMap[Int, String]) => + val (prefix, suffix) = subject.span(_._1 < 0) + prefix.forall(_._1 < 0) && suffix.forall(_._1 >= 0) && subject == prefix ++ suffix + } + + property("from is inclusive") = forAll { (subject: TreeMap[Int, String]) => subject.nonEmpty ==> { + val n = choose(0, subject.size - 1).sample.get + val from = subject.drop(n).firstKey + subject.from(from).firstKey == from && subject.from(from).forall(_._1 >= from) + }} + + property("to is inclusive") = forAll { (subject: TreeMap[Int, String]) => subject.nonEmpty ==> { + val n = choose(0, subject.size - 1).sample.get + val to = subject.drop(n).firstKey + subject.to(to).lastKey == to && subject.to(to).forall(_._1 <= to) + }} + + property("until is exclusive") = forAll { (subject: TreeMap[Int, String]) => subject.size > 1 ==> { + val n = choose(1, subject.size - 1).sample.get + val until = subject.drop(n).firstKey + subject.until(until).lastKey == subject.take(n).lastKey && subject.until(until).forall(_._1 <= until) + }} + + property("remove single") = forAll { (subject: TreeMap[Int, String]) => subject.nonEmpty ==> { + val key = oneOf(subject.keys.toSeq).sample.get + val removed = subject - key + subject.contains(key) && !removed.contains(key) && subject.size - 1 == removed.size + }} + + property("remove all") = forAll { (subject: TreeMap[Int, String]) => + val result = subject.foldLeft(subject)((acc, elt) => acc - elt._1) + result.isEmpty + } +} |