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avl_tree: moving parent slot inside tree_node. It complicates a bit the code, but avoid recursive call with parameter parent_slot.

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Guillaume Bittoun Sam Hocevar <sam@hocevar.net> 10 anni fa
parent
commit
af3229c39a
1 ha cambiato i file con 52 aggiunte e 43 eliminazioni
  1. +52
    -43
      src/lol/algorithm/avl_tree.h

+ 52
- 43
src/lol/algorithm/avl_tree.h Vedi File

@@ -29,11 +29,11 @@ public:
{
if (!m_root)
{
this->m_root = new tree_node(key, value);
this->m_root = new tree_node(key, value, &this->m_root);
return true;
}

return this->m_root->insert(key, value, this->m_root);
return this->m_root->insert(key, value);
}

bool erase(K const & key)
@@ -41,7 +41,7 @@ public:
if (!m_root)
return false;

return this->m_root->erase(key, this->m_root);
return this->m_root->erase(key);
}

bool exists(K const & key)
@@ -74,9 +74,10 @@ protected:
class tree_node
{
public:
tree_node(K key, V value) :
tree_node(K key, V value, tree_node ** parent_slot) :
m_key(key),
m_value(value)
m_value(value),
m_parent_slot(parent_slot)
{
m_child[0] = m_child[1] = nullptr;
m_stairs[0] = m_stairs[1] = 0;
@@ -84,7 +85,7 @@ protected:

/* Insert a value in tree and return true or update an existing value for
* the existing key and return false */
bool insert(K const & key, V const & value, tree_node * & parent_slot)
bool insert(K const & key, V const & value)
{
int i = -1 + (key < this->m_key) + 2 * (this->m_key < key);

@@ -97,33 +98,33 @@ protected:
bool created = false;

if (this->m_child[i])
created = this->m_child[i]->insert(key, value, this->m_child[i]);
created = this->m_child[i]->insert(key, value);
else
{
this->m_child[i] = new tree_node(key, value);
this->m_child[i] = new tree_node(key, value, &this->m_child[i]);
created = true;
}

if (created)
this->rebalance_if_needed(parent_slot);
this->rebalance_if_needed();

return created;
}

/* Erase a value in tree and return true or return false */
bool erase(K const & key, tree_node * & parent_slot)
bool erase(K const & key)
{
int i = -1 + (key < this->m_key) + 2 * (this->m_key < key);

if (i < 0)
{
this->erase_self(parent_slot);
this->erase_self();
delete this;
return true;
}
else if(this->m_child[i]->erase(key, this->m_child[i]))
else if(this->m_child[i]->erase(key))
{
this->rebalance_if_needed(parent_slot);
this->rebalance_if_needed();
return true;
}

@@ -146,31 +147,13 @@ protected:
return false;
}

tree_node * detach_deepest(int i, tree_node * & parent_slot)
{
tree_node * ret = nullptr;

if (this->m_child[i])
ret = this->m_child[i]->detach_deepest(i, this->m_child[i]);
else
{
parent_slot = this->m_child[(i ? 0 : 1)];
this->m_child[(i ? 0 : 1)] = nullptr;
ret = this;
}

this->rebalance_if_needed(parent_slot);

return ret;
}

void update_balance()
{
this->m_stairs[0] = this->m_child[0] ? lol::max(this->m_child[0]->m_stairs[0], this->m_child[0]->m_stairs[1]) + 1 : 0;
this->m_stairs[1] = this->m_child[1] ? lol::max(this->m_child[1]->m_stairs[0], this->m_child[1]->m_stairs[1]) + 1 : 0;
}

void rebalance_if_needed(tree_node * & parent_slot)
void rebalance_if_needed()
{
this->update_balance();

@@ -179,16 +162,27 @@ protected:

if (i || j)
{
tree_node * swap = this->m_child[i];
this->m_child[i] = swap->m_child[j];
swap->m_child[j] = this;
parent_slot = swap;
tree_node * save = this->m_child[i];
tree_node ** save_parent = this->m_parent_slot;

this->set_child(i, save->m_child[j]);
save->set_child(j, this);

save->m_parent_slot = save_parent;
*save_parent = save;

this->update_balance();
swap->update_balance();
save->update_balance();
}
}

void set_child(int i, tree_node * node)
{
this->m_child[i] = node;
if (node)
node->m_parent_slot = &this->m_child[i];
}

bool exists(K const & key)
{
int i = -1 + (key < this->m_key) + 2 * (this->m_key < key);
@@ -229,22 +223,35 @@ protected:

protected:

void erase_self(tree_node * & parent_slot)
void erase_self()
{
int i = (this->get_balance() == -1);

tree_node * replacement = nullptr;

if (i || this->m_child[1])
replacement = this->m_child[1 - i]->detach_deepest(i, this->m_child[1 - i]);
tree_node * replacement = this->m_child[1 - i];

if (replacement)
{
while (replacement->m_child[i])
replacement = replacement->m_child[i];
}
if (replacement)
{
*replacement->m_parent_slot = replacement->m_child[1 - i];
if (*replacement->m_parent_slot)
(*replacement->m_parent_slot)->rebalance_if_needed();

replacement->m_parent_slot = this->m_parent_slot;
*replacement->m_parent_slot = replacement;

replacement->m_child[0] = this->m_child[0];
replacement->m_child[1] = this->m_child[1];
}
else
*this->m_parent_slot = nullptr;

parent_slot = replacement;
this->m_parent_slot = nullptr;
this->m_child[0] = nullptr;
this->m_child[1] = nullptr;
}

K m_key;
@@ -252,6 +259,8 @@ protected:

tree_node *m_child[2];
int m_stairs[2];

tree_node ** m_parent_slot;
};

tree_node * m_root;


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