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Atmosphere/troposphere/daybreak/nanovg/source/framework/CIntrusiveTree.cpp

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/*
** Sample Framework for deko3d Applications
** CIntrusiveTree.cpp: Intrusive red-black tree helper class
*/
#include "CIntrusiveTree.h"
// This red-black tree implementation is mostly based on mtheall's work,
// which can be found here:
// https://github.com/smealum/ctrulib/tree/master/libctru/source/util/rbtree
void CIntrusiveTreeBase::rotate(N* node, N::Leaf leaf)
{
N *tmp = node->child(leaf);
N *parent = node->getParent();
node->child(leaf) = tmp->child(!leaf);
if (tmp->child(!leaf))
tmp->child(!leaf)->setParent(node);
tmp->child(!leaf) = node;
tmp->setParent(parent);
if (parent)
{
if (node == parent->child(!leaf))
parent->child(!leaf) = tmp;
else
parent->child(leaf) = tmp;
}
else
m_root = tmp;
node->setParent(tmp);
}
void CIntrusiveTreeBase::recolor(N* parent, N* node)
{
N *sibling;
while ((!node || node->isBlack()) && node != m_root)
{
N::Leaf leaf = node == parent->left() ? N::Right : N::Left;
sibling = parent->child(leaf);
if (sibling->isRed())
{
sibling->setBlack();
parent->setRed();
rotate(parent, leaf);
sibling = parent->child(leaf);
}
N::Color clr[2];
clr[N::Left] = sibling->left() ? sibling->left()->getColor() : N::Black;
clr[N::Right] = sibling->right() ? sibling->right()->getColor() : N::Black;
if (clr[N::Left] == N::Black && clr[N::Right] == N::Black)
{
sibling->setRed();
node = parent;
parent = node->getParent();
}
else
{
if (clr[leaf] == N::Black)
{
sibling->child(!leaf)->setBlack();
sibling->setRed();
rotate(sibling, !leaf);
sibling = parent->child(leaf);
}
sibling->setColor(parent->getColor());
parent->setBlack();
sibling->child(leaf)->setBlack();
rotate(parent, leaf);
node = m_root;
}
}
if (node)
node->setBlack();
}
auto CIntrusiveTreeBase::walk(N* node, N::Leaf leaf) const -> N*
{
if (node->child(leaf))
{
node = node->child(leaf);
while (node->child(!leaf))
node = node->child(!leaf);
}
else
{
N *parent = node->getParent();
while (parent && node == parent->child(leaf))
{
node = parent;
parent = node->getParent();
}
node = parent;
}
return node;
}
void CIntrusiveTreeBase::insert(N* node, N* parent)
{
node->left() = node->right() = nullptr;
node->setParent(parent);
node->setRed();
while ((parent = node->getParent()) && parent->isRed())
{
N *grandparent = parent->getParent();
N::Leaf leaf = parent == grandparent->left() ? N::Right : N::Left;
N *uncle = grandparent->child(leaf);
if (uncle && uncle->isRed())
{
uncle->setBlack();
parent->setBlack();
grandparent->setRed();
node = grandparent;
}
else
{
if (parent->child(leaf) == node)
{
rotate(parent, leaf);
N* tmp = parent;
parent = node;
node = tmp;
}
parent->setBlack();
grandparent->setRed();
rotate(grandparent, !leaf);
}
}
m_root->setBlack();
}
void CIntrusiveTreeBase::remove(N* node)
{
N::Color color;
N *child, *parent;
if (node->left() && node->right())
{
N *old = node;
node = node->right();
while (node->left())
node = node->left();
parent = old->getParent();
if (parent)
{
if (parent->left() == old)
parent->left() = node;
else
parent->right() = node;
}
else
m_root = node;
child = node->right();
parent = node->getParent();
color = node->getColor();
if (parent == old)
parent = node;
else
{
if (child)
child->setParent(parent);
parent->left() = child;
node->right() = old->right();
old->right()->setParent(node);
}
node->setParent(old->getParent());
node->setColor(old->getColor());
node->left() = old->left();
old->left()->setParent(node);
}
else
{
child = node->left() ? node->right() : node->left();
parent = node->getParent();
color = node->getColor();
if (child)
child->setParent(parent);
if (parent)
{
if (parent->left() == node)
parent->left() = child;
else
parent->right() = child;
}
else
m_root = child;
}
if (color == N::Black)
recolor(parent, child);
}