void TestAddRangePair()
{
RVList <int> list = new RVList <int>();
RVList <int> list2 = new RVList <int>();
list2.AddRange(new int[] { 1, 2, 3, 4 });
list.AddRange(list2, list2.WithoutLast(1));
list.AddRange(list2, list2.WithoutLast(2));
list.AddRange(list2, list2.WithoutLast(3));
list.AddRange(list2, list2.WithoutLast(4));
ExpectList(list, 1, 2, 3, 1, 2, 1);
AssertThrows <InvalidOperationException>(delegate() { list2.AddRange(list2.WithoutLast(1), list2); });
AssertThrows <InvalidOperationException>(delegate() { list2.AddRange(RVList <int> .Empty, list2); });
}
public void TestSublistProblem()
{
// This problem affects FVList.PreviousIn(), RVList.NextIn(),
// AddRange(list, excludeSubList), RVList.Enumerator when used with a
// range.
// Normally this works fine:
RVList <int> subList = new RVList <int>(), list;
subList.AddRange(new int[] { 1, 2, 3, 4, 5, 6, 7 });
list = subList;
list.Add(8);
Assert.That(subList.NextIn(list).Last == 8);
// But try it a second time and the problem arises, without some special
// code in VListBlock<T>.FindNextBlock() that has been added to
// compensate. I call the problem copy-causing-sharing-failure. You see,
// right now subList is formed from three blocks: a size-8 block that
// contains {7}, a size-4 block {3, 4, 5, 6} and a size-2 block {1, 2}.
// But the size-8 block actually has two items {7, 8} and when we
// attempt to add 9, a new array must be created. It might waste a lot
// of memory to make a new block {9} that links to the size-8 block that
// contains {7}, so instead a new size-8 block {7, 9} is created that
// links directly to {3, 4, 5, 6}. That way, the block {7, 8} can be
// garbage-collected if it is no longer in use. But a side effect is
// that subList no longer appears to be a part of list. The fix is to
// notice that list (block {7, 9}) and subList (block that contains {7})
// have the same prior list, {3, 4, 5, 6}, and that the remaining
// item(s) in subList (just one item, {7}, in this case) are also
// present in list.
list = subList;
list.Add(9);
Assert.AreEqual(9, subList.NextIn(list).Last);
}
public void TestEmptyListOperations()
{
RVList <int> a = new RVList <int>();
RVList <int> b = new RVList <int>();
a.AddRange(b);
a.InsertRange(0, b);
a.RemoveRange(0, 0);
Assert.That(!a.Remove(0));
Assert.That(a.IsEmpty);
a.Add(1);
b.AddRange(a);
ExpectList(b, 1);
b.RemoveAt(0);
Assert.That(b.IsEmpty);
b.InsertRange(0, a);
ExpectList(b, 1);
b.RemoveRange(0, 1);
Assert.That(b.IsEmpty);
b.Insert(0, a[0]);
ExpectList(b, 1);
b.Remove(a.Last);
Assert.That(b.IsEmpty);
AssertThrows <InvalidOperationException>(delegate() { a.NextIn(b); });
}
public void TestToArray()
{
RVList <int> list = new RVList <int>();
int[] array = list.ToArray();
Assert.AreEqual(array.Length, 0);
array = list.Add(1).ToArray();
ExpectList(array, 1);
array = list.Add(2).ToArray();
ExpectList(array, 1, 2);
array = list.Add(3).ToArray();
ExpectList(array, 1, 2, 3);
array = list.AddRange(new int[] { 4, 5, 6, 7, 8 }).ToArray();
ExpectList(array, 1, 2, 3, 4, 5, 6, 7, 8);
}
public void TestInsertRemoveRange()
{
RVList <int> oneTwo = new RVList <int>(1, 2);
RVList <int> threeFour = new RVList <int>(3, 4);
RVList <int> list = oneTwo;
RVList <int> list2 = threeFour;
ExpectList(list, 1, 2);
list.InsertRange(1, threeFour);
ExpectList(list, 1, 3, 4, 2);
list2.InsertRange(2, oneTwo);
ExpectList(list2, 3, 4, 1, 2);
list.RemoveRange(1, 2);
ExpectList(list, 1, 2);
list2.RemoveRange(2, 2);
ExpectList(list2, 3, 4);
list.RemoveRange(0, 2);
ExpectList(list);
list2.RemoveRange(1, 1);
ExpectList(list2, 3);
list = oneTwo;
list.AddRange(threeFour);
ExpectList(list, 1, 2, 3, 4);
list.InsertRange(1, list);
ExpectList(list, 1, 1, 2, 3, 4, 2, 3, 4);
list.RemoveRange(1, 1);
list.RemoveRange(4, 3);
ExpectList(list, 1, 2, 3, 4);
list.RemoveRange(0, 4);
ExpectList(list);
list2.InsertRange(0, list);
list2.InsertRange(1, list);
ExpectList(list2, 3);
}
public void SimpleTests()
{
// In this simple test, I only add and remove items from the back
// of an RVList, but forking is also tested.
RVList <int> list = new RVList <int>();
Assert.That(list.IsEmpty);
// Adding to VListBlockOfTwo
list = new RVList <int>(10, 20);
ExpectList(list, 10, 20);
list = new RVList <int>();
list.Add(1);
Assert.That(!list.IsEmpty);
list.Add(2);
ExpectList(list, 1, 2);
// A fork in VListBlockOfTwo. Note that list2 will use two VListBlocks
// here but list will only use one.
RVList <int> list2 = list.WithoutLast(1);
list2.Add(3);
ExpectList(list, 1, 2);
ExpectList(list2, 1, 3);
// Try doubling list2
list2.AddRange(list2);
ExpectList(list2, 1, 3, 1, 3);
// list now uses two arrays
list.Add(4);
ExpectList(list, 1, 2, 4);
// Try doubling list using a different overload of AddRange()
list.AddRange((IList <int>)list);
ExpectList(list, 1, 2, 4, 1, 2, 4);
list = list.WithoutLast(3);
ExpectList(list, 1, 2, 4);
// Remove(), Pop()
Assert.AreEqual(3, list2.Pop());
ExpectList(list2, 1, 3, 1);
Assert.That(!list2.Remove(0));
Assert.AreEqual(1, list2.Pop());
Assert.That(list2.Remove(3));
ExpectList(list2, 1);
Assert.That(list2.Remove(1));
ExpectList(list2);
AssertThrows <Exception>(delegate() { list2.Pop(); });
// Add many, SubList(). This will fill 3 arrays (sizes 8, 4, 2) and use
// 1 element of a size-16 array. Oh, and test the enumerator.
for (int i = 5; i <= 16; i++)
{
list.Add(i);
}
ExpectList(list, 1, 2, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16);
list2 = list.WithoutLast(6);
ExpectListByEnumerator(list2, 1, 2, 4, 5, 6, 7, 8, 9, 10);
AssertThrows <IndexOutOfRangeException>(delegate() { int i = list[-1]; });
AssertThrows <IndexOutOfRangeException>(delegate() { int i = list[15]; });
// IndexOf, contains
Assert.That(list.Contains(11));
Assert.That(!list2.Contains(11));
Assert.That(list[list.IndexOf(2)] == 2);
Assert.That(list[list.IndexOf(1)] == 1);
Assert.That(list[list.IndexOf(15)] == 15);
Assert.That(list.IndexOf(3) == -1);
// PreviousIn(), Back
RVList <int> list3 = list2;
Assert.AreEqual(11, (list3 = list3.NextIn(list)).Last);
Assert.AreEqual(12, (list3 = list3.NextIn(list)).Last);
Assert.AreEqual(13, (list3 = list3.NextIn(list)).Last);
Assert.AreEqual(14, (list3 = list3.NextIn(list)).Last);
Assert.AreEqual(15, (list3 = list3.NextIn(list)).Last);
Assert.AreEqual(16, (list3 = list3.NextIn(list)).Last);
AssertThrows <Exception>(delegate() { list3.NextIn(list); });
// Next
Assert.AreEqual(10, (list3 = list3.WithoutLast(6)).Last);
Assert.AreEqual(9, (list3 = list3.Tail).Last);
Assert.AreEqual(8, (list3 = list3.Tail).Last);
Assert.AreEqual(7, (list3 = list3.Tail).Last);
Assert.AreEqual(6, (list3 = list3.Tail).Last);
Assert.AreEqual(5, (list3 = list3.Tail).Last);
Assert.AreEqual(4, (list3 = list3.Tail).Last);
Assert.AreEqual(2, (list3 = list3.Tail).Last);
Assert.AreEqual(1, (list3 = list3.Tail).Last);
Assert.That((list3 = list3.Tail).IsEmpty);
// list2 is still the same
ExpectList(list2, 1, 2, 4, 5, 6, 7, 8, 9, 10);
// ==, !=, Equals(), AddRange(a, b)
Assert.That(!list2.Equals("hello"));
list3 = list2;
Assert.That(list3.Equals(list2));
Assert.That(list3 == list2);
// This AddRange forks the list. List2 ends up with block sizes 8 (3
// used), 8 (3 used), 4, 2.
list2.AddRange(list2, list2.WithoutLast(3));
ExpectList(list2, 1, 2, 4, 5, 6, 7, 8, 9, 10, 8, 9, 10);
Assert.That(list3 != list2);
// List3 is a sublist of list, but list2 no longer is
Assert.That(list3.NextIn(list).Last == 11);
AssertThrows <InvalidOperationException>(delegate() { list2.NextIn(list); });
list2 = list2.WithoutLast(3);
Assert.That(list3 == list2);
}