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#pragma once
#include <util/generic/utility.h>
#include <util/generic/yexception.h>
using TRbTreeColorType = bool;
#define RBTreeRed false
#define RBTreeBlack true
struct TRbTreeNodeBase {
using TColorType = TRbTreeColorType;
using TBasePtr = TRbTreeNodeBase*;
TColorType Color_;
TBasePtr Parent_;
TBasePtr Left_;
TBasePtr Right_;
size_t Children_;
inline TRbTreeNodeBase() noexcept {
ReInitNode();
}
inline void ReInitNode() noexcept {
Color_ = RBTreeBlack;
Parent_ = nullptr;
Left_ = nullptr;
Right_ = nullptr;
Children_ = 1;
}
static TBasePtr MinimumNode(TBasePtr x) {
while (x->Left_ != nullptr)
x = x->Left_;
return x;
}
static TBasePtr MaximumNode(TBasePtr x) {
while (x->Right_ != nullptr)
x = x->Right_;
return x;
}
static TBasePtr ByIndex(TBasePtr x, size_t index) {
if (x->Left_ != nullptr) {
if (index < x->Left_->Children_)
return ByIndex(x->Left_, index);
index -= x->Left_->Children_;
}
if (0 == index)
return x;
if (!x->Right_)
ythrow yexception() << "index not found";
return ByIndex(x->Right_, index - 1);
}
};
struct TRbTreeBaseIterator;
template <class TDummy>
class TRbGlobal {
public:
using TBasePtr = TRbTreeNodeBase*;
static void Rebalance(TBasePtr x, TBasePtr& root);
static TBasePtr RebalanceForErase(TBasePtr z, TBasePtr& root, TBasePtr& leftmost, TBasePtr& rightmost);
static void DecrementChildrenUntilRoot(TBasePtr x, TBasePtr root);
static void RecalcChildren(TBasePtr x);
static TBasePtr IncrementNode(TBasePtr);
static TBasePtr DecrementNode(TBasePtr);
static void RotateLeft(TBasePtr x, TBasePtr& root);
static void RotateRight(TBasePtr x, TBasePtr& root);
};
using TRbGlobalInst = TRbGlobal<bool>;
struct TRbTreeBaseIterator {
using TBasePtr = TRbTreeNodeBase*;
TBasePtr Node_;
inline TRbTreeBaseIterator(TBasePtr x = nullptr) noexcept
: Node_(x)
{
}
};
template <class TValue, class TTraits>
struct TRbTreeIterator: public TRbTreeBaseIterator {
using TReference = typename TTraits::TReference;
using TPointer = typename TTraits::TPointer;
using TSelf = TRbTreeIterator<TValue, TTraits>;
using TBasePtr = TRbTreeNodeBase*;
inline TRbTreeIterator() noexcept = default;
template <class T1>
inline TRbTreeIterator(const T1& x) noexcept
: TRbTreeBaseIterator(x)
{
}
inline TReference operator*() const noexcept {
return *static_cast<TValue*>(Node_);
}
inline TPointer operator->() const noexcept {
return static_cast<TValue*>(Node_);
}
inline TSelf& operator++() noexcept {
Node_ = TRbGlobalInst::IncrementNode(Node_);
return *this;
}
inline TSelf operator++(int) noexcept {
TSelf tmp = *this;
++(*this);
return tmp;
}
inline TSelf& operator--() noexcept {
Node_ = TRbGlobalInst::DecrementNode(Node_);
return *this;
}
inline TSelf operator--(int) noexcept {
TSelf tmp = *this;
--(*this);
return tmp;
}
template <class T1>
inline bool operator==(const T1& rhs) const noexcept {
return Node_ == rhs.Node_;
}
template <class T1>
inline bool operator!=(const T1& rhs) const noexcept {
return Node_ != rhs.Node_;
}
};
template <class TValue, class TCmp>
class TRbTree {
struct TCmpAdaptor: public TCmp {
inline TCmpAdaptor() noexcept = default;
inline TCmpAdaptor(const TCmp& cmp) noexcept
: TCmp(cmp)
{
}
template <class T1, class T2>
inline bool operator()(const T1& l, const T2& r) const {
return TCmp::Compare(l, r);
}
};
struct TNonConstTraits {
using TReference = TValue&;
using TPointer = TValue*;
};
struct TConstTraits {
using TReference = const TValue&;
using TPointer = const TValue*;
};
using TNodeBase = TRbTreeNodeBase;
using TBasePtr = TRbTreeNodeBase*;
using TColorType = TRbTreeColorType;
public:
class TRealNode: public TNodeBase {
public:
inline TRealNode()
: Tree_(nullptr)
{
}
inline ~TRealNode() {
UnLink();
}
inline void UnLink() noexcept {
if (Tree_) {
Tree_->EraseImpl(this);
ReInitNode();
Tree_ = nullptr;
}
}
inline void SetRbTreeParent(TRbTree* parent) noexcept {
Tree_ = parent;
}
inline TRbTree* ParentTree() const noexcept {
return Tree_;
}
private:
TRbTree* Tree_;
};
using TIterator = TRbTreeIterator<TValue, TNonConstTraits>;
using TConstIterator = TRbTreeIterator<TValue, TConstTraits>;
inline TRbTree() noexcept {
Init();
}
inline TRbTree(const TCmp& cmp) noexcept
: KeyCompare_(cmp)
{
Init();
}
inline void Init() noexcept {
Data_.Color_ = RBTreeRed;
Data_.Parent_ = nullptr;
Data_.Left_ = &Data_;
Data_.Right_ = &Data_;
Data_.Children_ = 0;
}
struct TDestroy {
inline void operator()(TValue& v) const noexcept {
v.SetRbTreeParent(nullptr);
v.ReInitNode();
}
};
inline ~TRbTree() {
ForEachNoOrder(TDestroy());
}
inline void Clear() noexcept {
ForEachNoOrder(TDestroy());
Init();
}
template <class F>
inline void ForEachNoOrder(const F& f) {
ForEachNoOrder(Root(), f);
}
template <class F>
inline void ForEachNoOrder(TNodeBase* n, const F& f) {
if (n && n != &Data_) {
ForEachNoOrder(n->Left_, f);
ForEachNoOrder(n->Right_, f);
f(ValueNode(n));
}
}
inline TIterator Begin() noexcept {
return LeftMost();
}
inline TConstIterator Begin() const noexcept {
return LeftMost();
}
inline TIterator End() noexcept {
return &this->Data_;
}
inline TConstIterator End() const noexcept {
return const_cast<TBasePtr>(&this->Data_);
}
inline bool Empty() const noexcept {
return this->Begin() == this->End();
}
inline explicit operator bool() const noexcept {
return !this->Empty();
}
inline TIterator Insert(TValue* val) {
return Insert(*val);
}
inline TIterator Insert(TValue& val) {
val.UnLink();
TBasePtr y = &this->Data_;
TBasePtr x = Root();
while (x != nullptr) {
++(x->Children_);
y = x;
if (KeyCompare_(ValueNode(&val), ValueNode(x))) {
x = LeftNode(x);
} else {
x = RightNode(x);
}
}
return InsertImpl(y, &val, x);
}
template <class F>
inline void ForEach(F& f) {
TIterator it = Begin();
while (it != End()) {
f(*it++);
}
}
inline void Erase(TValue& val) noexcept {
val.UnLink();
}
inline void Erase(TValue* val) noexcept {
Erase(*val);
}
inline void Erase(TIterator pos) noexcept {
Erase(*pos);
}
inline void EraseImpl(TNodeBase* val) noexcept {
TRbGlobalInst::RebalanceForErase(val, this->Data_.Parent_, this->Data_.Left_, this->Data_.Right_);
}
template <class T1>
inline TValue* Find(const T1& k) const {
TBasePtr y = nullptr;
TBasePtr x = Root(); // Current node.
while (x != nullptr)
if (!KeyCompare_(ValueNode(x), k))
y = x, x = LeftNode(x);
else
x = RightNode(x);
if (y) {
if (KeyCompare_(k, ValueNode(y))) {
y = nullptr;
}
}
return static_cast<TValue*>(y);
}
size_t GetIndex(TBasePtr x) const {
size_t index = 0;
if (x->Left_ != nullptr) {
index += x->Left_->Children_;
}
while (x != nullptr && x->Parent_ != nullptr && x->Parent_ != const_cast<TBasePtr>(&this->Data_)) {
if (x->Parent_->Right_ == x && x->Parent_->Left_ != nullptr) {
index += x->Parent_->Left_->Children_;
}
if (x->Parent_->Right_ == x) {
index += 1;
}
x = x->Parent_;
}
return index;
}
template <class T1>
inline TBasePtr LowerBound(const T1& k) const {
TBasePtr y = const_cast<TBasePtr>(&this->Data_); /* Last node which is not less than k. */
TBasePtr x = Root(); /* Current node. */
while (x != nullptr)
if (!KeyCompare_(ValueNode(x), k))
y = x, x = LeftNode(x);
else
x = RightNode(x);
return y;
}
template <class T1>
inline TBasePtr UpperBound(const T1& k) const {
TBasePtr y = const_cast<TBasePtr>(&this->Data_); /* Last node which is greater than k. */
TBasePtr x = Root(); /* Current node. */
while (x != nullptr)
if (KeyCompare_(k, ValueNode(x)))
y = x, x = LeftNode(x);
else
x = RightNode(x);
return y;
}
template <class T1>
inline size_t LessCount(const T1& k) const {
auto x = LowerBound(k);
if (x == const_cast<TBasePtr>(&this->Data_)) {
if (const auto root = Root()) {
return root->Children_;
} else {
return 0;
}
} else {
return GetIndex(x);
}
}
template <class T1>
inline size_t NotLessCount(const T1& k) const {
return Root()->Children_ - LessCount<T1>(k);
}
template <class T1>
inline size_t GreaterCount(const T1& k) const {
auto x = UpperBound(k);
if (x == const_cast<TBasePtr>(&this->Data_)) {
return 0;
} else {
return Root()->Children_ - GetIndex(x);
}
}
template <class T1>
inline size_t NotGreaterCount(const T1& k) const {
return Root()->Children_ - GreaterCount<T1>(k);
}
TValue* ByIndex(size_t index) {
return static_cast<TValue*>(TRbTreeNodeBase::ByIndex(Root(), index));
}
private:
// CRP 7/10/00 inserted argument on_right, which is another hint (meant to
// act like on_left and ignore a portion of the if conditions -- specify
// on_right != nullptr to bypass comparison as false or on_left != nullptr to bypass
// comparison as true)
TIterator InsertImpl(TRbTreeNodeBase* parent, TRbTreeNodeBase* val, TRbTreeNodeBase* on_left = nullptr, TRbTreeNodeBase* on_right = nullptr) {
ValueNode(val).SetRbTreeParent(this);
TBasePtr new_node = val;
if (parent == &this->Data_) {
LeftNode(parent) = new_node;
// also makes LeftMost() = new_node
Root() = new_node;
RightMost() = new_node;
} else if (on_right == nullptr &&
// If on_right != nullptr, the remainder fails to false
(on_left != nullptr ||
// If on_left != nullptr, the remainder succeeds to true
KeyCompare_(ValueNode(val), ValueNode(parent))))
{
LeftNode(parent) = new_node;
if (parent == LeftMost())
// maintain LeftMost() pointing to min node
LeftMost() = new_node;
} else {
RightNode(parent) = new_node;
if (parent == RightMost())
// maintain RightMost() pointing to max node
RightMost() = new_node;
}
ParentNode(new_node) = parent;
TRbGlobalInst::Rebalance(new_node, this->Data_.Parent_);
return new_node;
}
TBasePtr Root() const {
return this->Data_.Parent_;
}
TBasePtr LeftMost() const {
return this->Data_.Left_;
}
TBasePtr RightMost() const {
return this->Data_.Right_;
}
TBasePtr& Root() {
return this->Data_.Parent_;
}
TBasePtr& LeftMost() {
return this->Data_.Left_;
}
TBasePtr& RightMost() {
return this->Data_.Right_;
}
static TBasePtr& LeftNode(TBasePtr x) {
return x->Left_;
}
static TBasePtr& RightNode(TBasePtr x) {
return x->Right_;
}
static TBasePtr& ParentNode(TBasePtr x) {
return x->Parent_;
}
static TValue& ValueNode(TBasePtr x) {
return *static_cast<TValue*>(x);
}
static TBasePtr MinimumNode(TBasePtr x) {
return TRbTreeNodeBase::MinimumNode(x);
}
static TBasePtr MaximumNode(TBasePtr x) {
return TRbTreeNodeBase::MaximumNode(x);
}
private:
TCmpAdaptor KeyCompare_;
TNodeBase Data_;
};
template <class TValue, class TCmp>
class TRbTreeItem: public TRbTree<TValue, TCmp>::TRealNode {
};
template <class TDummy>
void TRbGlobal<TDummy>::RotateLeft(TRbTreeNodeBase* x, TRbTreeNodeBase*& root) {
TRbTreeNodeBase* y = x->Right_;
x->Right_ = y->Left_;
if (y->Left_ != nullptr)
y->Left_->Parent_ = x;
y->Parent_ = x->Parent_;
if (x == root)
root = y;
else if (x == x->Parent_->Left_)
x->Parent_->Left_ = y;
else
x->Parent_->Right_ = y;
y->Left_ = x;
x->Parent_ = y;
y->Children_ = x->Children_;
x->Children_ = ((x->Left_) ? x->Left_->Children_ : 0) + ((x->Right_) ? x->Right_->Children_ : 0) + 1;
}
template <class TDummy>
void TRbGlobal<TDummy>::RotateRight(TRbTreeNodeBase* x, TRbTreeNodeBase*& root) {
TRbTreeNodeBase* y = x->Left_;
x->Left_ = y->Right_;
if (y->Right_ != nullptr)
y->Right_->Parent_ = x;
y->Parent_ = x->Parent_;
if (x == root)
root = y;
else if (x == x->Parent_->Right_)
x->Parent_->Right_ = y;
else
x->Parent_->Left_ = y;
y->Right_ = x;
x->Parent_ = y;
y->Children_ = x->Children_;
x->Children_ = ((x->Left_) ? x->Left_->Children_ : 0) + ((x->Right_) ? x->Right_->Children_ : 0) + 1;
}
template <class TDummy>
void TRbGlobal<TDummy>::Rebalance(TRbTreeNodeBase* x, TRbTreeNodeBase*& root) {
x->Color_ = RBTreeRed;
while (x != root && x->Parent_->Color_ == RBTreeRed) {
if (x->Parent_ == x->Parent_->Parent_->Left_) {
TRbTreeNodeBase* y = x->Parent_->Parent_->Right_;
if (y && y->Color_ == RBTreeRed) {
x->Parent_->Color_ = RBTreeBlack;
y->Color_ = RBTreeBlack;
x->Parent_->Parent_->Color_ = RBTreeRed;
x = x->Parent_->Parent_;
} else {
if (x == x->Parent_->Right_) {
x = x->Parent_;
RotateLeft(x, root);
}
x->Parent_->Color_ = RBTreeBlack;
x->Parent_->Parent_->Color_ = RBTreeRed;
RotateRight(x->Parent_->Parent_, root);
}
} else {
TRbTreeNodeBase* y = x->Parent_->Parent_->Left_;
if (y && y->Color_ == RBTreeRed) {
x->Parent_->Color_ = RBTreeBlack;
y->Color_ = RBTreeBlack;
x->Parent_->Parent_->Color_ = RBTreeRed;
x = x->Parent_->Parent_;
} else {
if (x == x->Parent_->Left_) {
x = x->Parent_;
RotateRight(x, root);
}
x->Parent_->Color_ = RBTreeBlack;
x->Parent_->Parent_->Color_ = RBTreeRed;
RotateLeft(x->Parent_->Parent_, root);
}
}
}
root->Color_ = RBTreeBlack;
}
template <class TDummy>
void TRbGlobal<TDummy>::RecalcChildren(TRbTreeNodeBase* x) {
x->Children_ = ((x->Left_) ? x->Left_->Children_ : 0) + ((x->Right_) ? x->Right_->Children_ : 0) + 1;
}
template <class TDummy>
void TRbGlobal<TDummy>::DecrementChildrenUntilRoot(TRbTreeNodeBase* x, TRbTreeNodeBase* root) {
auto* ptr = x;
--ptr->Children_;
while (ptr != root) {
ptr = ptr->Parent_;
--ptr->Children_;
}
}
template <class TDummy>
TRbTreeNodeBase* TRbGlobal<TDummy>::RebalanceForErase(TRbTreeNodeBase* z,
TRbTreeNodeBase*& root,
TRbTreeNodeBase*& leftmost,
TRbTreeNodeBase*& rightmost) {
TRbTreeNodeBase* y = z;
TRbTreeNodeBase* x;
TRbTreeNodeBase* x_parent;
if (y->Left_ == nullptr) // z has at most one non-null child. y == z.
x = y->Right_; // x might be null.
else {
if (y->Right_ == nullptr) // z has exactly one non-null child. y == z.
x = y->Left_; // x is not null.
else { // z has two non-null children. Set y to
y = TRbTreeNodeBase::MinimumNode(y->Right_); // z's successor. x might be null.
x = y->Right_;
}
}
if (y != z) {
// relink y in place of z. y is z's successor
z->Left_->Parent_ = y;
y->Left_ = z->Left_;
if (y != z->Right_) {
x_parent = y->Parent_;
if (x)
x->Parent_ = y->Parent_;
y->Parent_->Left_ = x; // y must be a child of mLeft
y->Right_ = z->Right_;
z->Right_->Parent_ = y;
} else
x_parent = y;
if (root == z)
root = y;
else if (z->Parent_->Left_ == z)
z->Parent_->Left_ = y;
else
z->Parent_->Right_ = y;
y->Parent_ = z->Parent_;
DoSwap(y->Color_, z->Color_);
RecalcChildren(y);
if (x_parent != y) {
--x_parent->Children_;
}
if (x_parent != root) {
DecrementChildrenUntilRoot(x_parent->Parent_, root);
}
y = z;
// y now points to node to be actually deleted
} else {
// y == z
x_parent = y->Parent_;
if (x)
x->Parent_ = y->Parent_;
if (root == z)
root = x;
else {
if (z->Parent_->Left_ == z)
z->Parent_->Left_ = x;
else
z->Parent_->Right_ = x;
DecrementChildrenUntilRoot(z->Parent_, root); // we lost y
}
if (leftmost == z) {
if (z->Right_ == nullptr) // z->mLeft must be null also
leftmost = z->Parent_;
// makes leftmost == _M_header if z == root
else
leftmost = TRbTreeNodeBase::MinimumNode(x);
}
if (rightmost == z) {
if (z->Left_ == nullptr) // z->mRight must be null also
rightmost = z->Parent_;
// makes rightmost == _M_header if z == root
else // x == z->mLeft
rightmost = TRbTreeNodeBase::MaximumNode(x);
}
}
if (y->Color_ != RBTreeRed) {
while (x != root && (x == nullptr || x->Color_ == RBTreeBlack))
if (x == x_parent->Left_) {
TRbTreeNodeBase* w = x_parent->Right_;
if (w->Color_ == RBTreeRed) {
w->Color_ = RBTreeBlack;
x_parent->Color_ = RBTreeRed;
RotateLeft(x_parent, root);
w = x_parent->Right_;
}
if ((w->Left_ == nullptr ||
w->Left_->Color_ == RBTreeBlack) &&
(w->Right_ == nullptr ||
w->Right_->Color_ == RBTreeBlack))
{
w->Color_ = RBTreeRed;
x = x_parent;
x_parent = x_parent->Parent_;
} else {
if (w->Right_ == nullptr || w->Right_->Color_ == RBTreeBlack) {
if (w->Left_)
w->Left_->Color_ = RBTreeBlack;
w->Color_ = RBTreeRed;
RotateRight(w, root);
w = x_parent->Right_;
}
w->Color_ = x_parent->Color_;
x_parent->Color_ = RBTreeBlack;
if (w->Right_)
w->Right_->Color_ = RBTreeBlack;
RotateLeft(x_parent, root);
break;
}
} else {
// same as above, with mRight <-> mLeft.
TRbTreeNodeBase* w = x_parent->Left_;
if (w->Color_ == RBTreeRed) {
w->Color_ = RBTreeBlack;
x_parent->Color_ = RBTreeRed;
RotateRight(x_parent, root);
w = x_parent->Left_;
}
if ((w->Right_ == nullptr ||
w->Right_->Color_ == RBTreeBlack) &&
(w->Left_ == nullptr ||
w->Left_->Color_ == RBTreeBlack))
{
w->Color_ = RBTreeRed;
x = x_parent;
x_parent = x_parent->Parent_;
} else {
if (w->Left_ == nullptr || w->Left_->Color_ == RBTreeBlack) {
if (w->Right_)
w->Right_->Color_ = RBTreeBlack;
w->Color_ = RBTreeRed;
RotateLeft(w, root);
w = x_parent->Left_;
}
w->Color_ = x_parent->Color_;
x_parent->Color_ = RBTreeBlack;
if (w->Left_)
w->Left_->Color_ = RBTreeBlack;
RotateRight(x_parent, root);
break;
}
}
if (x)
x->Color_ = RBTreeBlack;
}
return y;
}
template <class TDummy>
TRbTreeNodeBase* TRbGlobal<TDummy>::DecrementNode(TRbTreeNodeBase* Node_) {
if (Node_->Color_ == RBTreeRed && Node_->Parent_->Parent_ == Node_)
Node_ = Node_->Right_;
else if (Node_->Left_ != nullptr) {
Node_ = TRbTreeNodeBase::MaximumNode(Node_->Left_);
} else {
TBasePtr y = Node_->Parent_;
while (Node_ == y->Left_) {
Node_ = y;
y = y->Parent_;
}
Node_ = y;
}
return Node_;
}
template <class TDummy>
TRbTreeNodeBase* TRbGlobal<TDummy>::IncrementNode(TRbTreeNodeBase* Node_) {
if (Node_->Right_ != nullptr) {
Node_ = TRbTreeNodeBase::MinimumNode(Node_->Right_);
} else {
TBasePtr y = Node_->Parent_;
while (Node_ == y->Right_) {
Node_ = y;
y = y->Parent_;
}
// check special case: This is necessary if mNode is the
// _M_head and the tree contains only a single node y. In
// that case parent, left and right all point to y!
if (Node_->Right_ != y)
Node_ = y;
}
return Node_;
}
#undef RBTreeRed
#undef RBTreeBlack
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