mirror of
https://github.com/libretro/bsnes-libretro.git
synced 2024-11-23 00:49:40 +00:00
903d1e4012
* GB: integrated SameBoy v0.12.1 by Lior Halphon * SFC: added HG51B169 (Cx4) math tables into bsnes binary
267 lines
6.8 KiB
C++
Executable File
267 lines
6.8 KiB
C++
Executable File
#pragma once
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//set
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//implementation: red-black tree
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//
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//search: O(log n) average; O(log n) worst
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//insert: O(log n) average; O(log n) worst
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//remove: O(log n) average; O(log n) worst
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//
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//requirements:
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// bool T::operator==(const T&) const;
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// bool T::operator< (const T&) const;
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#include <nall/utility.hpp>
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#include <nall/vector.hpp>
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namespace nall {
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template<typename T> struct set {
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struct node_t {
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T value;
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bool red = 1;
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node_t* link[2] = {nullptr, nullptr};
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node_t() = default;
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node_t(const T& value) : value(value) {}
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};
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node_t* root = nullptr;
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uint nodes = 0;
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set() = default;
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set(const set& source) { operator=(source); }
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set(set&& source) { operator=(move(source)); }
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set(std::initializer_list<T> list) { for(auto& value : list) insert(value); }
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~set() { reset(); }
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auto operator=(const set& source) -> set& {
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if(this == &source) return *this;
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reset();
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copy(root, source.root);
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nodes = source.nodes;
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return *this;
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}
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auto operator=(set&& source) -> set& {
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if(this == &source) return *this;
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root = source.root;
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nodes = source.nodes;
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source.root = nullptr;
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source.nodes = 0;
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return *this;
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}
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explicit operator bool() const { return nodes; }
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auto size() const -> uint { return nodes; }
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auto reset() -> void {
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reset(root);
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nodes = 0;
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}
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auto find(const T& value) -> maybe<T&> {
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if(node_t* node = find(root, value)) return node->value;
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return nothing;
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}
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auto find(const T& value) const -> maybe<const T&> {
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if(node_t* node = find(root, value)) return node->value;
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return nothing;
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}
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auto insert(const T& value) -> maybe<T&> {
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uint count = size();
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node_t* v = insert(root, value);
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root->red = 0;
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if(size() == count) return nothing;
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return v->value;
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}
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template<typename... P> auto insert(const T& value, P&&... p) -> bool {
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bool result = insert(value);
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insert(forward<P>(p)...) | result;
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return result;
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}
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auto remove(const T& value) -> bool {
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uint count = size();
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bool done = 0;
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remove(root, &value, done);
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if(root) root->red = 0;
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return size() < count;
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}
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template<typename... P> auto remove(const T& value, P&&... p) -> bool {
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bool result = remove(value);
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return remove(forward<P>(p)...) | result;
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}
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struct base_iterator {
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auto operator!=(const base_iterator& source) const -> bool { return position != source.position; }
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auto operator++() -> base_iterator& {
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if(++position >= source.size()) { position = source.size(); return *this; }
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if(stack.right()->link[1]) {
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stack.append(stack.right()->link[1]);
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while(stack.right()->link[0]) stack.append(stack.right()->link[0]);
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} else {
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node_t* child;
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do child = stack.takeRight();
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while(child == stack.right()->link[1]);
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}
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return *this;
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}
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base_iterator(const set& source, uint position) : source(source), position(position) {
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node_t* node = source.root;
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while(node) {
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stack.append(node);
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node = node->link[0];
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}
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}
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protected:
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const set& source;
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uint position;
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vector<node_t*> stack;
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};
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struct iterator : base_iterator {
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iterator(const set& source, uint position) : base_iterator(source, position) {}
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auto operator*() const -> T& { return base_iterator::stack.right()->value; }
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};
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auto begin() -> iterator { return iterator(*this, 0); }
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auto end() -> iterator { return iterator(*this, size()); }
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struct const_iterator : base_iterator {
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const_iterator(const set& source, uint position) : base_iterator(source, position) {}
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auto operator*() const -> const T& { return base_iterator::stack.right()->value; }
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};
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auto begin() const -> const const_iterator { return const_iterator(*this, 0); }
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auto end() const -> const const_iterator { return const_iterator(*this, size()); }
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private:
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auto reset(node_t*& node) -> void {
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if(!node) return;
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if(node->link[0]) reset(node->link[0]);
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if(node->link[1]) reset(node->link[1]);
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delete node;
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node = nullptr;
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}
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auto copy(node_t*& target, const node_t* source) -> void {
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if(!source) return;
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target = new node_t(source->value);
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target->red = source->red;
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copy(target->link[0], source->link[0]);
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copy(target->link[1], source->link[1]);
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}
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auto find(node_t* node, const T& value) const -> node_t* {
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if(node == nullptr) return nullptr;
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if(node->value == value) return node;
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return find(node->link[node->value < value], value);
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}
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auto red(node_t* node) const -> bool { return node && node->red; }
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auto black(node_t* node) const -> bool { return !red(node); }
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auto rotate(node_t*& a, bool dir) -> void {
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node_t*& b = a->link[!dir];
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node_t*& c = b->link[dir];
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a->red = 1, b->red = 0;
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std::swap(a, b);
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std::swap(b, c);
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}
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auto rotateTwice(node_t*& node, bool dir) -> void {
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rotate(node->link[!dir], !dir);
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rotate(node, dir);
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}
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auto insert(node_t*& node, const T& value) -> node_t* {
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if(!node) { nodes++; node = new node_t(value); return node; }
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if(node->value == value) { node->value = value; return node; } //prevent duplicate entries
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bool dir = node->value < value;
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node_t* v = insert(node->link[dir], value);
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if(black(node->link[dir])) return v;
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if(red(node->link[!dir])) {
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node->red = 1;
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node->link[0]->red = 0;
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node->link[1]->red = 0;
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} else if(red(node->link[dir]->link[dir])) {
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rotate(node, !dir);
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} else if(red(node->link[dir]->link[!dir])) {
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rotateTwice(node, !dir);
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}
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return v;
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}
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auto balance(node_t*& node, bool dir, bool& done) -> void {
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node_t* p = node;
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node_t* s = node->link[!dir];
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if(!s) return;
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if(red(s)) {
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rotate(node, dir);
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s = p->link[!dir];
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}
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if(black(s->link[0]) && black(s->link[1])) {
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if(red(p)) done = 1;
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p->red = 0, s->red = 1;
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} else {
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bool save = p->red;
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bool head = node == p;
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if(red(s->link[!dir])) rotate(p, dir);
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else rotateTwice(p, dir);
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p->red = save;
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p->link[0]->red = 0;
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p->link[1]->red = 0;
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if(head) node = p;
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else node->link[dir] = p;
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done = 1;
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}
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}
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auto remove(node_t*& node, const T* value, bool& done) -> void {
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if(!node) { done = 1; return; }
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if(node->value == *value) {
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if(!node->link[0] || !node->link[1]) {
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node_t* save = node->link[!node->link[0]];
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if(red(node)) done = 1;
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else if(red(save)) save->red = 0, done = 1;
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nodes--;
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delete node;
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node = save;
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return;
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} else {
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node_t* heir = node->link[0];
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while(heir->link[1]) heir = heir->link[1];
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node->value = heir->value;
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value = &heir->value;
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}
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}
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bool dir = node->value < *value;
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remove(node->link[dir], value, done);
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if(!done) balance(node, dir, done);
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}
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};
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}
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