forked from vieter-v/libvieter
fix(tree): working balanced remove
parent
70217bee21
commit
bee520a781
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@ -48,7 +48,7 @@ vieter_tree_error vieter_tree_remove(void **out, vieter_tree *tree,
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return vieter_tree_not_present;
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}
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vieter_tree_error res = vieter_tree_node_remove(out, tree->root, key);
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vieter_tree_error res = vieter_tree_node_remove(out, &tree->root, key);
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if (res != vieter_tree_ok) {
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return res;
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@ -33,6 +33,9 @@ bool vieter_tree_node_validate(vieter_tree_node *node,
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expected_black_nodes);
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}
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/*
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* This function should be rewritten to use tree rotations instead.
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*/
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vieter_tree_node *vieter_tree_node_balance(vieter_tree_node *node) {
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vieter_tree_node *parent = node->parent;
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vieter_tree_node *grand_parent = parent->parent;
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@ -144,7 +147,9 @@ vieter_tree_node *vieter_tree_node_rotate(vieter_tree_node *old_root,
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if (dir) {
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vieter_tree_node_set_child(old_root, new_root->children[1], false);
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vieter_tree_node_set_child(new_root, old_root, true);
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} else {
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}
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// Left rotation
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else {
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vieter_tree_node_set_child(old_root, new_root->children[0], true);
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vieter_tree_node_set_child(new_root, old_root, false);
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}
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@ -152,7 +157,32 @@ vieter_tree_node *vieter_tree_node_rotate(vieter_tree_node *old_root,
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return new_root;
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}
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void vieter_tree_node_remove_balanced(vieter_tree_node *node) {
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/*
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* This function is currently implemented by very literally following the
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* Wikipedia pseudocode. It's honestly not too bad, and I couldn't be bothered
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* to properly research how to implement red-black removal (how is this so hard
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* to find?)
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*
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* https://en.wikipedia.org/wiki/Red%E2%80%93black_tree#Removal_of_a_black_non-root_leaf
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*/
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vieter_tree_node *vieter_tree_node_remove_balanced(vieter_tree_node *node) {
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vieter_tree_node *out;
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if (node->parent == NULL) {
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out = node->children[0] != NULL ? node->children[0] : node->children[1];
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vieter_tree_node_free(node);
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// This only happens when the root was the only element in the tree
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if (out == NULL)
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return out;
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vieter_tree_node_set(out, vieter_tree_node_black, true);
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out->parent = NULL;
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return out;
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}
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// A red node can only have 0 or 2 children. The node we receive only has
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// one child at most, so we know if it's red that it doesn't have any
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// children. A black node that has a single (right) child can be replaced by
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@ -160,6 +190,8 @@ void vieter_tree_node_remove_balanced(vieter_tree_node *node) {
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// replaced by its right child (even if it's NULL).
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if (!vieter_tree_node_get(node, vieter_tree_node_black) ||
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node->children[1] != NULL) {
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out = node->children[1];
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vieter_tree_node_set_child(
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node->parent, node->children[1],
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vieter_tree_node_get(node, vieter_tree_node_right));
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@ -169,12 +201,13 @@ void vieter_tree_node_remove_balanced(vieter_tree_node *node) {
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vieter_tree_node_free(node);
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return;
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return out;
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}
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// The complicated case is when we want to remove a black leaf
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// https://en.wikipedia.org/wiki/Red%E2%80%93black_tree#Removal_of_a_black_non-root_leaf
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out = node;
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vieter_tree_node *parent = node->parent;
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vieter_tree_node *sibling, *close_nephew, *distant_nephew;
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bool dir = vieter_tree_node_get(node, vieter_tree_node_right);
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@ -209,13 +242,14 @@ void vieter_tree_node_remove_balanced(vieter_tree_node *node) {
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// Case 2
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vieter_tree_node_set(sibling, vieter_tree_node_black, false);
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node = parent;
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out = node;
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} while ((parent = node->parent) != NULL);
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// Case 1
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return;
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return out;
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case3:
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vieter_tree_node_rotate(parent, dir);
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out = vieter_tree_node_rotate(parent, dir);
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vieter_tree_node_set(parent, vieter_tree_node_black, false);
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vieter_tree_node_set(sibling, vieter_tree_node_black, true);
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sibling = close_nephew;
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@ -234,7 +268,8 @@ case3:
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case4:
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vieter_tree_node_set(sibling, vieter_tree_node_black, false);
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vieter_tree_node_set(parent, vieter_tree_node_black, true);
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return;
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return out;
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case5:
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vieter_tree_node_rotate(sibling, 1 - dir);
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@ -244,9 +279,11 @@ case5:
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sibling = close_nephew;
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case6:
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vieter_tree_node_rotate(parent, dir);
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out = vieter_tree_node_rotate(parent, dir);
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vieter_tree_node_set(sibling, vieter_tree_node_black,
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vieter_tree_node_get(parent, vieter_tree_node_black));
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vieter_tree_node_set(parent, vieter_tree_node_black, true);
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vieter_tree_node_set(distant_nephew, vieter_tree_node_black, true);
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return out;
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}
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@ -3,6 +3,26 @@
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#include "vieter_tree_node.h"
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/*
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* Check whether the given tree is a valid red-black tree.
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*
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* @param node root of the (sub)tree
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* @param passed_black_nodes how many black nodes the recursion has already seen
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* at this point. This should be initialized as 0 for the topmost call.
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* @param expected_black_nodes the correct amount of black nodes to expect when
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* a NULL child is encountered.
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* @return true if the tree is valid, false otherwise
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*/
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bool vieter_tree_node_validate(vieter_tree_node *node,
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uint64_t passed_black_nodes,
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uint64_t expected_black_nodes);
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/*
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* Balance a path of 3 nodes into a complete binary tree, with a red root and
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* black children.
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*/
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vieter_tree_node *vieter_tree_node_balance(vieter_tree_node *node);
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/*
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* Ensure the tree remains a valid red-black tree after having inserting the
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* node.
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@ -12,10 +32,15 @@ void vieter_tree_node_balance_after_insert(vieter_tree_node *node);
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/*
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* Remove the given node, ensuring the tree remains a valid red-black tree.
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*
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* @param node node to remove. This should have at most a single child, namely
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* the right one.
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* @param node node to remove. This should have at most a single child. If node
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* isn't the root, this should be the right child, otherwise it can be either.
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* @return root of the subtree that this function operated on. This can
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* sometimes be the new root of the entire tree.
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*/
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void vieter_tree_node_remove_balanced(vieter_tree_node *node);
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vieter_tree_node *vieter_tree_node_remove_balanced(vieter_tree_node *node);
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/*
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* Perform a tree rotation of the subtree with the given root.
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*/
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vieter_tree_node *vieter_tree_node_rotate(vieter_tree_node *old_root, bool dir);
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#endif
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@ -109,16 +109,17 @@ vieter_tree_error vieter_tree_node_search(void **out, vieter_tree_node *root,
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return vieter_tree_ok;
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}
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vieter_tree_error vieter_tree_node_remove(void **out, vieter_tree_node *root,
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uint64_t key) {
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vieter_tree_error
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vieter_tree_node_remove(void **out, vieter_tree_node **root_ptr, uint64_t key) {
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vieter_tree_node *target;
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vieter_tree_error res = vieter_tree_node_search_node(&target, root, key);
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vieter_tree_error res = vieter_tree_node_search_node(&target, *root_ptr, key);
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if (res != vieter_tree_ok) {
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return res;
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}
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*out = target->data;
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vieter_tree_node *possible_new_root;
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if (target->children[0] != NULL && target->children[1] != NULL) {
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vieter_tree_node *replacement = target->children[1];
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@ -130,9 +131,15 @@ vieter_tree_error vieter_tree_node_remove(void **out, vieter_tree_node *root,
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target->key = replacement->key;
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target->data = replacement->data;
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vieter_tree_node_remove_balanced(replacement);
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possible_new_root = vieter_tree_node_remove_balanced(replacement);
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} else {
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vieter_tree_node_remove_balanced(target);
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possible_new_root = vieter_tree_node_remove_balanced(target);
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}
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if (possible_new_root == NULL) {
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*root_ptr = NULL;
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} else if (possible_new_root->parent == NULL) {
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*root_ptr = possible_new_root;
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}
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return vieter_tree_ok;
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@ -33,7 +33,7 @@ vieter_tree_error vieter_tree_node_search_node(vieter_tree_node **out, vieter_tr
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vieter_tree_error vieter_tree_node_search(void **out, vieter_tree_node *root, uint64_t key);
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vieter_tree_error vieter_tree_node_remove(void **out, vieter_tree_node *root, uint64_t key);
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vieter_tree_error vieter_tree_node_remove(void **out, vieter_tree_node **root_ptr, uint64_t key);
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void vieter_tree_node_replace_with_child(vieter_tree_node *to_replace, vieter_tree_node *replacement);
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@ -3,6 +3,9 @@
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#include "vieter_tree_node.h"
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#include "vieter_tree_balancing.h"
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// This uses the examples from wikipedia
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// https://en.wikipedia.org/wiki/Tree_rotation
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void test_rotate_right() {
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vieter_tree_node *a = vieter_tree_node_init();
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vieter_tree_node *b = vieter_tree_node_init();
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@ -24,6 +27,12 @@ void test_rotate_right() {
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TEST_CHECK(new_root->children[1] == q);
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TEST_CHECK(new_root->children[1]->children[0] == b);
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TEST_CHECK(new_root->children[1]->children[1] == c);
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vieter_tree_node_free(a);
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vieter_tree_node_free(b);
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vieter_tree_node_free(p);
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vieter_tree_node_free(c);
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vieter_tree_node_free(q);
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}
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void test_rotate_left() {
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@ -47,6 +56,12 @@ void test_rotate_left() {
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TEST_CHECK(new_root->children[1] == c);
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TEST_CHECK(new_root->children[0]->children[0] == a);
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TEST_CHECK(new_root->children[0]->children[1] == b);
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vieter_tree_node_free(a);
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vieter_tree_node_free(b);
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vieter_tree_node_free(p);
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vieter_tree_node_free(c);
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vieter_tree_node_free(q);
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}
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TEST_LIST = {
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@ -42,7 +42,7 @@ void test_remove() {
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void *out;
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for (uint64_t i = 0; i < 100; i++) {
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for (uint64_t i = 0; i < 250; i++) {
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TEST_CHECK(vieter_tree_search(&out, tree, i) == vieter_tree_ok);
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TEST_CHECK(vieter_tree_remove(&out, tree, i) == vieter_tree_ok);
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TEST_CHECK(vieter_tree_validate(tree));
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