Tasapainoinen binääripuu

Sisällysluettelo

Python-, Java- ja C / C ++ -esimerkkejä
Tasapainotetut binääripuun sovellukset

Tässä opetusohjelmassa opit tasapainotetusta binääripuusta ja sen eri tyypeistä. Löydät myös toimivia esimerkkejä tasapainotetusta binääripuusta C, C ++, Java ja Python.

Tasapainoinen binääripuu, jota kutsutaan myös korkeussuhteiseksi binääripuuksi, määritellään binääripuuksi, jossa minkä tahansa solmun vasemman ja oikean alipuun korkeus eroaa enintään yhdellä.

Saat lisätietoja puun / solmun korkeudesta käymällä Puun tietorakenne -kohdassa. Seuraavat ovat korkeustasapainotetun binaarisen puun ehdot:

minkä tahansa solmun vasemman ja oikean alipuun ero on enintään yksi
vasen osapuu on tasapainossa
oikea alipuu on tasapainossa

Tasapainoinen binääripuu, jonka syvyys on kullakin tasolla

Epätasapainoinen binääripuu, jonka syvyys on kullakin tasolla

Python-, Java- ja C / C ++ -esimerkkejä

Seuraava koodi on tarkoitettu tarkistamaan, onko puu korkeustasapainoinen.

Python Java C C ++

 # Checking if a binary tree is CalculateHeight balanced in Python # CreateNode creation class CreateNode: def __init__(self, item): self.item = item self.left = self.right = None # Calculate height class CalculateHeight: def __init__(self): self.CalculateHeight = 0 # Check height balance def is_height_balanced(root, CalculateHeight): left_height = CalculateHeight() right_height = CalculateHeight() if root is None: return True l = is_height_balanced(root.left, left_height) r = is_height_balanced(root.right, right_height) CalculateHeight.CalculateHeight = max( left_height.CalculateHeight, right_height.CalculateHeight) + 1 if abs(left_height.CalculateHeight - right_height.CalculateHeight) <= 1: return l and r return False CalculateHeight = CalculateHeight() root = CreateNode(1) root.left = CreateNode(2) root.right = CreateNode(3) root.left.left = CreateNode(4) root.left.right = CreateNode(5) if is_height_balanced(root, CalculateHeight): print('The tree is balanced') else: print('The tree is not balanced')

 // Checking if a binary tree is height balanced in Java // Node creation class Node ( int data; Node left, right; Node(int d) ( data = d; left = right = null; ) ) // Calculate height class Height ( int height = 0; ) class BinaryTree ( Node root; // Check height balance boolean checkHeightBalance(Node root, Height height) ( // Check for emptiness if (root == null) ( height.height = 0; return true; ) Height leftHeighteight = new Height(), rightHeighteight = new Height(); boolean l = checkHeightBalance(root.left, leftHeighteight); boolean r = checkHeightBalance(root.right, rightHeighteight); int leftHeight = leftHeighteight.height, rightHeight = rightHeighteight.height; height.height = (leftHeight> rightHeight ? leftHeight : rightHeight) + 1; if ((leftHeight - rightHeight>= 2) || (rightHeight - leftHeight>= 2)) return false; else return l && r; ) public static void main(String args()) ( Height height = new Height(); BinaryTree tree = new BinaryTree(); tree.root = new Node(1); tree.root.left = new Node(2); tree.root.right = new Node(3); tree.root.left.left = new Node(4); tree.root.left.right = new Node(5); if (tree.checkHeightBalance(tree.root, height)) System.out.println("The tree is balanced"); else System.out.println("The tree is not balanced"); ) )

 // Checking if a binary tree is height balanced in C #include #include #define bool int // Node creation struct node ( int item; struct node *left; struct node *right; ); // Create a new node struct node *newNode(int item) ( struct node *node = (struct node *)malloc(sizeof(struct node)); node->item = item; node->left = NULL; node->right = NULL; return (node); ) // Check for height balance bool checkHeightBalance(struct node *root, int *height) ( // Check for emptiness int leftHeight = 0, rightHeight = 0; int l = 0, r = 0; if (root == NULL) ( *height = 0; return 1; ) l = checkHeightBalance(root->left, &leftHeight); r = checkHeightBalance(root->right, &rightHeight); *height = (leftHeight> rightHeight ? leftHeight : rightHeight) + 1; if ((leftHeight - rightHeight>= 2) || (rightHeight - leftHeight>= 2)) return 0; else return l && r; ) int main() ( int height = 0; struct node *root = newNode(1); root->left = newNode(2); root->right = newNode(3); root->left->left = newNode(4); root->left->right = newNode(5); if (checkHeightBalance(root, &height)) printf("The tree is balanced"); else printf("The tree is not balanced"); )

 // Checking if a binary tree is height balanced in C++ #include using namespace std; #define bool int class node ( public: int item; node *left; node *right; ); // Create anew node node *newNode(int item) ( node *Node = new node(); Node->item = item; Node->left = NULL; Node->right = NULL; return (Node); ) // Check height balance bool checkHeightBalance(node *root, int *height) ( // Check for emptiness int leftHeight = 0, rightHeight = 0; int l = 0, r = 0; if (root == NULL) ( *height = 0; return 1; ) l = checkHeightBalance(root->left, &leftHeight); r = checkHeightBalance(root->right, &rightHeight); *height = (leftHeight> rightHeight ? leftHeight : rightHeight) + 1; if ((leftHeight - rightHeight>= 2) || (rightHeight - leftHeight>= 2)) return 0; else return l && r; ) int main() ( int height = 0; node *root = newNode(1); root->left = newNode(2); root->right = newNode(3); root->left->left = newNode(4); root->left->right = newNode(5); if (checkHeightBalance(root, &height)) cout << "The tree is balanced"; else cout << "The tree is not balanced"; )