public void CheckIfNodeIsInvalidatedAfterClearingAndAfterRemoval() { var tree = new AVLTreeMap <int, int>(); tree.Add(2, 2); tree.Add(1, 1); tree.Add(3, 3); // Tree looks like this: // 2 // / \ // 1 3 var node1 = tree.Root.Left; var node2 = tree.Root; var node3 = tree.Root.Right; tree.Remove(2); if (node2.Left != null || node2.Right != null) { Assert.Fail("2"); } tree.Remove(3); if (node3.Left != null || node3.Right != null) { Assert.Fail("3"); } tree.Remove(1); if (node1.Left != null || node1.Right != null) { Assert.Fail("1"); } tree.Add(2, 2); tree.Add(1, 1); tree.Add(3, 3); node1 = tree.Root.Left; node2 = tree.Root; node3 = tree.Root.Right; tree.Clear(); Assert.IsTrue(node1.Left == null && node1.Right == null && node2.Left == null && node2.Right == null && node3.Left == null && node3.Right == null && tree.Root == null && tree.Count == 0); }
public void RemoveAllExceptOne() { var tree = new AVLTreeMap <int, int>(); int elementsCount = 100000; //Adding every seventh number, then every fifth number, //every third and at last all numbers for (int i = 7; i > 0; i -= 2) { int el = 0; while (el < elementsCount) { if (!tree.ContainsKey(el)) { tree.Add(el, el); } el += i; } } bool removedEverything = true; for (int i = 0; i < elementsCount - 1; i++) { if (!tree.Remove(i)) { removedEverything = false; } } Assert.IsTrue(tree.Count == 1 && removedEverything && tree.Root.Value == elementsCount - 1); }
public void SortedElementsAfterAddingAndRemoving() { var tree = new AVLTreeMap <int, int>(); int elementsCount = 100000; //Adding every seventh number, then every fifth number, //every third and at last all numbers for (int i = 7; i > 0; i -= 2) { int el = 0; while (el < elementsCount) { if (!tree.ContainsKey(el)) { tree.Add(el, el); } el += i; } } bool removedEverything = true; //Removing every second number for (int i = 0; i < elementsCount; i += 2) { if (!tree.Remove(i)) { removedEverything = false; } } int last = -1; int count = 0; bool elementsAreSorted = true; foreach (var item in tree) { if (last > item.Key) { elementsAreSorted = false; } last = item.Key; count++; } Trace.WriteLine(tree.Count); Assert.IsTrue(tree.Count == count && elementsAreSorted && removedEverything); }
public void UpdatingElementsWithIndexerUsingTryGetValueMethodToGetValue() { var tree = new AVLTreeMap <int, int>(); int elementsCount = 100000; //Adding every seventh number, then every fifth number, //every third and at last all numbers for (int i = 7; i > 0; i -= 2) { int el = 0; while (el < elementsCount) { if (!tree.ContainsKey(el)) { tree.Add(el, el); } el += i; } } bool removedEverything = true; //Removing every second number for (int i = 0; i < elementsCount; i += 2) { if (!tree.Remove(i)) { removedEverything = false; } } // Make all values negative for (int i = 0; i < elementsCount; i++) { int value; if (tree.TryGetValue(i, out value)) { tree[value] = -value; } } int last = -1; int count = 0; bool elementsAreSorted = true; foreach (var item in tree) { if (item.Value > 0) { Assert.Fail(); } if (last > item.Key) { elementsAreSorted = false; } last = item.Key; count++; } Trace.WriteLine(tree.Count); Assert.IsTrue(tree.Count == count && elementsAreSorted && removedEverything); }
public void AddingAfterRemovingAllElements() { var tree = new AVLTreeMap <int, int>(); int elementsCount = 100000; //Adding every seventh number, then every fifth number, //every third and at last all numbers for (int i = 7; i > 0; i -= 2) { int el = 0; while (el < elementsCount) { if (!tree.ContainsKey(el)) { tree.Add(el, el); } el += i; } } if (tree.Count != elementsCount) { Assert.Fail(); } //Removing every seventh number, then every fifth number, //every third and at last all numbers for (int i = 7; i > 0; i -= 2) { int el = 0; while (el < elementsCount) { tree.Remove(el); el += i; } } if (tree.Count != 0) { Assert.Fail(); } //Adding every seventh number, then every fifth number, //every third and at last all numbers for (int i = 7; i > 0; i -= 2) { int el = 0; while (el < elementsCount) { if (!tree.ContainsKey(el)) { tree.Add(el, el); } el += i; } } int last = -1; int count = 0; bool elementsAreSorted = true; foreach (var item in tree) { if (last > item.Key) { elementsAreSorted = false; } last = item.Key; count++; } Assert.IsTrue(tree.Count == elementsCount && elementsAreSorted && count == elementsCount); }