public void TestMutabilification() { // Make a single block mutable RVList <int> v = new RVList <int>(1, 0); RWList <int> w = v.ToRWList(); ExpectList(w, 1, 0); w[1] = 2; ExpectList(w, 1, 2); ExpectList(v, 1, 0); // Make another block, make the front block mutable, then the block-of-2 v.Push(-1); w = v.ToRWList(); w[2] = 3; ExpectList(w, 1, 0, 3); Assert.That(w.WithoutLast(1) == v.WithoutLast(1)); w[1] = 2; ExpectList(w, 1, 2, 3); Assert.That(w.WithoutLast(1) != v.WithoutLast(1)); // Now for a more complicated case: create a long immutable chain by // using a nasty access pattern, add a mutable block in front, then // make some of the immutable blocks mutable. This will cause several // immutable blocks to be consolidated into one mutable block, // shortening the chain. v = new RVList <int>(6); v = v.Add(-1).Tail.Add(5).Add(-1).Tail.Add(4).Add(-1).Tail.Add(3); v = v.Add(-1).Tail.Add(2).Add(-1).Tail.Add(1).Add(-1).Tail.Add(0); ExpectList(v, 6, 5, 4, 3, 2, 1, 0); // At this point, every block in the chain has only one item (it's // a linked list!) and the capacity of each block is 2. Assert.AreEqual(7, v.BlockChainLength); w = v.ToRWList(); w.AddRange(new int[] { 1, 2, 3, 4, 5 }); Assert.AreEqual(w.Count, 12); ExpectList(w, 6, 5, 4, 3, 2, 1, 0, 1, 2, 3, 4, 5); // Indices: 0 1 2 3 4 5 6 7 8 9 10 11 // Blocks: H| G| F| E| D| C| B | block A (front of chain) Assert.AreEqual(8, w.BlockChainLength); Assert.AreEqual(4, w.LocalCount); w[3] = -3; ExpectList(w, 6, 5, 4, -3, 2, 1, 0, 1, 2, 3, 4, 5); // Indices: 0 1 2 3 4 5 6 7 8 9 10 11 // Blocks: H| G| F| block I | block A (front of chain) Assert.AreEqual(5, w.BlockChainLength); }
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 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); }