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avl_tree: using contiguous buffer for node storage. Copy is still unsafe and this solution needs review before complete validation (sam… ?)
undefined
Guillaume Bittoun
1 zmienionych plików z 129 dodań i 30 usunięć
-
+129 -30src/lol/algorithm/avl_tree.h
+ 129
- 30
src/lol/algorithm/avl_tree.h
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| @@ -12,7 +12,6 @@ | |||
| #pragma once | |||
| namespace lol | |||
| { | |||
| @@ -27,13 +26,21 @@ public: | |||
| bool insert(K const & key, V const & value) | |||
| { | |||
| bool created = false; | |||
| if (!m_root) | |||
| { | |||
| this->m_root = new tree_node(key, value, &this->m_root); | |||
| return true; | |||
| this->m_root = this->m_allocator.allocate(key, value, &this->m_root); | |||
| created = true; | |||
| } | |||
| return this->m_root->insert(key, value); | |||
| if (!created) | |||
| created = this->m_root->insert(key, value); | |||
| if (this->m_allocator.check_reallocation()) | |||
| this->m_allocator.repair_root(&this->m_root); | |||
| return created; | |||
| } | |||
| bool erase(K const & key) | |||
| @@ -60,20 +67,18 @@ public: | |||
| return false; | |||
| } | |||
| virtual ~avl_tree() | |||
| { | |||
| if (this->m_root) | |||
| { | |||
| this->m_root->cascade_delete(); | |||
| delete this->m_root; | |||
| } | |||
| } | |||
| protected: | |||
| class tree_node | |||
| { | |||
| public: | |||
| tree_node() : | |||
| m_parent_slot(nullptr) | |||
| { | |||
| m_child[0] = m_child[1] = nullptr; | |||
| m_stairs[0] = m_stairs[1] = 0; | |||
| } | |||
| tree_node(K key, V value, tree_node ** parent_slot) : | |||
| m_key(key), | |||
| m_value(value), | |||
| @@ -101,7 +106,7 @@ protected: | |||
| created = this->m_child[i]->insert(key, value); | |||
| else | |||
| { | |||
| this->m_child[i] = new tree_node(key, value, &this->m_child[i]); | |||
| this->m_child[i] = this->m_allocator->allocate(key, value, &this->m_child[i]); | |||
| created = true; | |||
| } | |||
| @@ -119,7 +124,7 @@ protected: | |||
| if (i < 0) | |||
| { | |||
| this->erase_self(); | |||
| delete this; | |||
| this->m_allocator->deallocate(this); | |||
| return true; | |||
| } | |||
| else if(this->m_child[i]->erase(key)) | |||
| @@ -196,21 +201,6 @@ protected: | |||
| return false; | |||
| } | |||
| void cascade_delete() | |||
| { | |||
| if (this->m_child[0]) | |||
| { | |||
| this->m_child[0]->cascade_delete(); | |||
| delete this->m_child[0]; | |||
| } | |||
| if (this->m_child[1]) | |||
| { | |||
| this->m_child[1]->cascade_delete(); | |||
| delete this->m_child[1]; | |||
| } | |||
| } | |||
| int get_balance() | |||
| { | |||
| return this->m_stairs[1] - this->m_stairs[0]; | |||
| @@ -221,6 +211,113 @@ protected: | |||
| return this->m_key; | |||
| } | |||
| class tree_node_allocator | |||
| { | |||
| public: | |||
| tree_node_allocator() : | |||
| m_current(0), | |||
| m_size(1), | |||
| m_allocated(0) | |||
| { | |||
| m_buffers[0] = new tree_node[1]; | |||
| m_buffers[1] = nullptr; | |||
| } | |||
| ~tree_node_allocator() | |||
| { | |||
| delete[] this->m_buffers[this->m_current]; | |||
| } | |||
| tree_node * allocate(K const & key, V const & value, tree_node ** parent_slot) | |||
| { | |||
| tree_node * new_node = &this->m_buffers[this->m_current][this->m_allocated++]; | |||
| new_node->m_key = key; | |||
| new_node->m_value = value; | |||
| new_node->m_parent_slot = parent_slot; | |||
| new_node->m_allocator = this; | |||
| return new_node; | |||
| } | |||
| bool check_reallocation() | |||
| { | |||
| if (this->m_allocated == this->m_size) | |||
| { | |||
| int next = this->m_current ? 0 : 1; | |||
| size_t new_size = this->m_size * 2; | |||
| this->m_buffers[next] = new tree_node[new_size]; | |||
| for (int i = 0 ; i < this->m_size ; ++i) | |||
| this->m_buffers[next][i] = this->m_buffers[this->m_current][i]; | |||
| // Fix new links between child and parents and the new_array | |||
| for (int i = 0 ; i < this->m_size ; ++i) | |||
| { | |||
| for (int j = 0 ; j < 2 ; ++j) | |||
| { | |||
| if (this->m_buffers[this->m_current][i].m_child[j]) | |||
| { | |||
| ptrdiff_t position0 = this->m_buffers[this->m_current][i].m_child[j] - this->m_buffers[this->m_current]; | |||
| this->m_buffers[next][i].m_child[j] = &this->m_buffers[next][position0]; | |||
| this->m_buffers[next][position0].m_parent_slot = &this->m_buffers[next][i].m_child[j]; | |||
| } | |||
| } | |||
| } | |||
| delete[] this->m_buffers[this->m_current]; | |||
| this->m_buffers[this->m_current] = nullptr; | |||
| this->m_current = next; | |||
| this->m_size = new_size; | |||
| return true; | |||
| } | |||
| return false; | |||
| } | |||
| void deallocate(tree_node * replace) | |||
| { | |||
| *replace = this->m_buffers[m_current][this->m_allocated - 1]; | |||
| if (replace->m_parent_slot) | |||
| *replace->m_parent_slot = replace; | |||
| this->m_buffers[m_current][this->m_allocated - 1] = tree_node(); | |||
| for (int i = 0 ; i < 2 ; ++i) | |||
| if (replace->m_child[i]) | |||
| replace->m_child[i]->m_parent_slot = &replace->m_child[i]; | |||
| --this->m_allocated; | |||
| } | |||
| void repair_root(tree_node ** root) | |||
| { | |||
| bool root_found = false; | |||
| for (int i = 0 ; i < this->m_allocated ; ++i) | |||
| { | |||
| if (this->m_buffers[this->m_current][i].m_parent_slot == root) | |||
| { | |||
| *root = &this->m_buffers[this->m_current][i]; | |||
| root_found = true; | |||
| } | |||
| } | |||
| ASSERT(root_found); // Something went really bad | |||
| } | |||
| private: | |||
| tree_node * m_buffers[2]; | |||
| int m_current; | |||
| size_t m_size; | |||
| ptrdiff_t m_allocated; | |||
| }; | |||
| protected: | |||
| void erase_self() | |||
| @@ -261,9 +358,11 @@ protected: | |||
| int m_stairs[2]; | |||
| tree_node ** m_parent_slot; | |||
| tree_node_allocator * m_allocator; | |||
| }; | |||
| tree_node * m_root; | |||
| typename tree_node::tree_node_allocator m_allocator; | |||
| }; | |||
| } | |||