#include "vieter_tree_balancing.h" bool vieter_tree_node_validate(vieter_tree_node *node, uint64_t passed_black_nodes, uint64_t expected_black_nodes) { // Path to NULL children should contain the same amount of black nodes if (node == NULL) { return passed_black_nodes == expected_black_nodes; } if (vieter_tree_node_get(node, vieter_tree_node_black)) { passed_black_nodes++; } // Either the node itself is black, or its children are both either NULL or // black. bool correctly_colored_children = vieter_tree_node_get(node, vieter_tree_node_black) || ((node->children[0] == NULL || vieter_tree_node_get(node->children[0], vieter_tree_node_black)) && (node->children[1] == NULL || vieter_tree_node_get(node->children[1], vieter_tree_node_black))); return correctly_colored_children && vieter_tree_node_validate(node->children[0], passed_black_nodes, expected_black_nodes) && vieter_tree_node_validate(node->children[1], passed_black_nodes, expected_black_nodes); } vieter_tree_node *vieter_tree_node_balance(vieter_tree_node *node) { vieter_tree_node *parent = node->parent; vieter_tree_node *grand_parent = parent->parent; vieter_tree_node *root = grand_parent; vieter_tree_node *left, *right; vieter_tree_node *children[4]; uint64_t key_root = root->key; void *data_root = root->data; if (node->key < parent->key && parent->key < grand_parent->key) { root->key = parent->key; root->data = parent->data; parent->key = key_root; parent->data = data_root; left = node; right = parent; children[0] = node->children[0]; children[1] = node->children[1]; children[2] = parent->children[1]; children[3] = grand_parent->children[1]; } else if (node->key < parent->key && parent->key > grand_parent->key) { root->key = node->key; root->data = node->data; node->key = key_root; node->data = data_root; left = node; right = parent; children[0] = grand_parent->children[0]; children[1] = node->children[0]; children[2] = node->children[1]; children[3] = parent->children[1]; } else if (node->key > parent->key && parent->key < grand_parent->key) { root->key = node->key; root->data = node->data; node->key = key_root; node->data = data_root; left = parent; right = node; children[0] = parent->children[0]; children[1] = node->children[0]; children[2] = node->children[1]; children[3] = grand_parent->children[1]; } else { root->key = parent->key; root->data = parent->data; parent->key = key_root; parent->data = data_root; left = parent; right = node; children[0] = grand_parent->children[0]; children[1] = parent->children[0]; children[2] = node->children[0]; children[3] = node->children[1]; } vieter_tree_node_set(left, vieter_tree_node_black); vieter_tree_node_set(right, vieter_tree_node_black); vieter_tree_node_unset(root, vieter_tree_node_black); left->children[0] = children[0]; left->children[1] = children[1]; if (children[0] != NULL) children[0]->parent = left; if (children[1] != NULL) children[1]->parent = left; right->children[0] = children[2]; right->children[1] = children[3]; if (children[2] != NULL) children[2]->parent = right; if (children[3] != NULL) children[3]->parent = right; root->children[0] = left; root->children[1] = right; left->parent = root; right->parent = root; return root; } void vieter_tree_node_balance_after_insert(vieter_tree_node *node) { while (!vieter_tree_node_get(node, vieter_tree_node_black) && node->parent != NULL && !vieter_tree_node_get(node->parent, vieter_tree_node_black)) { node = vieter_tree_node_balance(node); } // The root must always be black if (node->parent == NULL) { vieter_tree_node_set(node, vieter_tree_node_black); } } void vieter_tree_node_remove_balanced(vieter_tree_node *node) {}