mirror of https://github.com/PrimeDecomp/prime.git
Add red_black_tree::find
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ee58faa944
commit
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@ -21,9 +21,12 @@ public:
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// typedef typename rep_type::iterator iterator;
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typedef typename rep_type::const_iterator const_iterator;
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void insert(const value_type& item) {
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inner.insert(item);
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}
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void insert(const value_type& item) { inner.insert(item); }
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const_iterator begin() const { return inner.begin(); }
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const_iterator end() const { return inner.end(); }
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const_iterator find(const K& key) const { return inner.find(key); }
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private:
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rep_type inner;
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@ -54,14 +54,16 @@ private:
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node* get_right() { return mRight; }
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void set_right(node* n) { mRight = n; }
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};
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struct header {};
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struct header {
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node* mNode;
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};
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struct unknown {
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node* x0_nodeA;
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node** x4_nodeB;
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node* x0_node;
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const header* x4_header;
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bool x8_;
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unknown(node* a, node** b, bool flag) : x0_nodeA(a), x4_nodeB(b), x8_(flag) {}
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unknown(node* a, const header* h, bool b) : x0_node(a), x4_header(h), x8_(b) {}
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};
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public:
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@ -69,7 +71,10 @@ public:
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node* mNode;
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const header* mHeader;
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const P* operator->() const { return &mNode->get_value(); }
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const_iterator(node* node, const header* header)
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: mNode(node), mHeader(header) {}
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const P* operator->() const { return mNode->get_value(); }
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bool operator==(const const_iterator& other) const {
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return mNode == other.mNode && mHeader == other.mHeader;
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}
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@ -95,13 +100,43 @@ public:
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unknown insert_into(node* n, const P& item);
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unknown insert(const P& item) { return insert_into(x10_rootNode, item); }
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const_iterator begin() const {
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// TODO
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return const_iterator(nullptr, nullptr);
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}
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const_iterator end() const {
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// TODO
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return const_iterator(nullptr, nullptr);
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}
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const_iterator find(const T& key) const {
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node* n = x10_rootNode;
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node* needle = nullptr;
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while (n != nullptr) {
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if (!x1_cmp(x2_selector(*n->get_value()), key)) {
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needle = n;
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n = n->get_left();
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} else {
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n = n->get_right();
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}
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}
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bool noResult = false;
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if (needle == nullptr || x1_cmp(key, x2_selector(*needle->get_value()))) {
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noResult = true;
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}
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if (noResult) {
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needle = nullptr;
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}
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return const_iterator(needle, nullptr);
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}
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private:
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Alloc x0_allocator;
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Cmp x1_cmp;
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S x2_selector;
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int x4_count;
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node* x8_nodeA;
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node* xc_nodeB;
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header x8_headerA;
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header xc_headerB;
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node* x10_rootNode;
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};
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@ -117,24 +152,24 @@ red_black_tree< T, P, U, S, Cmp, Alloc >::insert_into(node* n, const P& item) {
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new (n) node(item);
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x10_rootNode = n;
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x4_count += 1;
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x8_nodeA = x10_rootNode;
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xc_nodeB = x10_rootNode;
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return unknown(x10_rootNode, &x8_nodeA, kUnknownValueNewRoot);
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x8_headerA.mNode = x10_rootNode;
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xc_headerB.mNode = x10_rootNode;
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return unknown(x10_rootNode, &x8_headerA, kUnknownValueNewRoot);
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} else {
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node* newNode = nullptr;
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while (newNode == nullptr) {
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bool firstComp = x1_cmp(x2_selector(*n->get_value()), x2_selector(item));
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if (!firstComp && !x1_cmp(x2_selector(item), x2_selector(*n->get_value()))) {
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return unknown(n, &x8_nodeA, kUnknownValueEqualKey);
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return unknown(n, &x8_headerA, kUnknownValueEqualKey);
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}
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if (firstComp) {
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if (n->get_left() == nullptr) {
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x0_allocator.allocate(newNode, 1);
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new (newNode) node(item, kNC_Black);
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n->set_left(newNode);
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if (n == x8_nodeA) {
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x8_nodeA = newNode;
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if (n == x8_headerA.mNode) {
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x8_headerA.mNode = newNode;
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}
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} else {
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n = n->get_left();
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@ -144,8 +179,8 @@ red_black_tree< T, P, U, S, Cmp, Alloc >::insert_into(node* n, const P& item) {
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x0_allocator.allocate(newNode, 1);
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new (newNode) node(item, kNC_Black);
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n->set_right(newNode);
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if (n == xc_nodeB) {
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xc_nodeB = newNode;
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if (n == xc_headerB.mNode) {
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xc_headerB.mNode = newNode;
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}
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} else {
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n = n->get_right();
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@ -153,8 +188,8 @@ red_black_tree< T, P, U, S, Cmp, Alloc >::insert_into(node* n, const P& item) {
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}
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}
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x4_count += 1;
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rbtree_rebalance(&x8_nodeA, newNode);
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return unknown(newNode, &x8_nodeA, kUnknownValueNewItem);
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rbtree_rebalance(&x8_headerA, newNode);
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return unknown(newNode, &x8_headerA, kUnknownValueNewItem);
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}
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}
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