156 lines
4.3 KiB
C++
156 lines
4.3 KiB
C++
// Partial implementation of binary-tree based set class similar to std::set.
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// The iterator increment & decrement operations have been omitted.
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#ifndef ds_set_h_
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#define ds_set_h_
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#include <iostream>
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#include <utility>
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// -------------------------------------------------------------------
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// TREE NODE CLASS
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template <class T>
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class TreeNode {
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public:
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TreeNode() : left(NULL), right(NULL) {}
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TreeNode(const T& init) : value(init), left(NULL), right(NULL) {}
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T value;
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TreeNode* left;
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TreeNode* right;
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};
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template <class T> class ds_set;
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// -------------------------------------------------------------------
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// TREE NODE ITERATOR CLASS
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template <class T>
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class tree_iterator {
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public:
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tree_iterator() : ptr_(NULL) {}
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tree_iterator(TreeNode<T>* p) : ptr_(p) {}
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tree_iterator(const tree_iterator& old) : ptr_(old.ptr_) {}
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~tree_iterator() {}
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tree_iterator& operator=(const tree_iterator& old) { ptr_ = old.ptr_; return *this; }
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// operator* gives constant access to the value at the pointer
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const T& operator*() const { return ptr_->value; }
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// comparions operators are straightforward
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bool operator== (const tree_iterator& rgt) { return ptr_ == rgt.ptr_; }
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bool operator!= (const tree_iterator& rgt) { return ptr_ != rgt.ptr_; }
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// increment & decrement will be discussed in Lecture 19 and Lab 11
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private:
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// representation
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TreeNode<T>* ptr_;
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};
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// -------------------------------------------------------------------
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// DS SET CLASS
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template <class T>
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class ds_set {
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public:
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ds_set() : root_(NULL), size_(0) {}
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ds_set(const ds_set<T>& old) : size_(old.size_) {
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root_ = this->copy_tree(old.root_); }
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~ds_set() { this->destroy_tree(root_); root_ = NULL; }
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ds_set& operator=(const ds_set<T>& old) {
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if (&old != this) {
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this->destroy_tree(root_);
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root_ = this->copy_tree(old.root_);
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size_ = old.size_;
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}
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return *this;
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}
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typedef tree_iterator<T> iterator;
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int size() const { return size_; }
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bool operator==(const ds_set<T>& old) const { return (old.root_ == this->root_); }
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// FIND, INSERT & ERASE
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iterator find(const T& key_value) { return find(key_value, root_); }
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std::pair< iterator, bool > insert(T const& key_value) { return insert(key_value, root_); }
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int erase(T const& key_value) { return erase(key_value, root_); }
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// OUTPUT & PRINTING
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friend std::ostream& operator<< (std::ostream& ostr, const ds_set<T>& s) {
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s.print_in_order(ostr, s.root_);
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return ostr;
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}
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void print_as_sideways_tree(std::ostream& ostr) const {
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print_as_sideways_tree(ostr, root_, 0); }
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// ITERATORS
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iterator begin() const {
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if (!root_) return iterator(NULL);
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TreeNode<T>* p = root_;
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while (p->left) p = p->left;
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return iterator(p);
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}
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iterator end() const { return iterator(NULL); }
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private:
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// REPRESENTATION
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TreeNode<T>* root_;
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int size_;
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// PRIVATE HELPER FUNCTIONS
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TreeNode<T>* copy_tree(TreeNode<T>* old_root) {
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// Implemented in Lab 10
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}
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void destroy_tree(TreeNode<T>* p) { /* Implemented in Lecture 18 */ }
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iterator find(const T& key_value, TreeNode<T>* p) {
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if (!p) return iterator(NULL);
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if (p->value > key_value)
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return find(key_value, p->left);
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else if (p->value < key_value)
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return find(key_value, p->right);
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else
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return iterator(p);
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}
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std::pair<iterator,bool> insert(const T& key_value, TreeNode<T>*& p) {
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if (!p) {
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p = new TreeNode<T>(key_value);
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this->size_++;
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return std::pair<iterator,bool>(iterator(p), true);
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}
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else if (key_value < p->value)
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return insert(key_value, p->left);
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else if (key_value > p->value)
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return insert(key_value, p->right);
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else
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return std::pair<iterator,bool>(iterator(p), false);
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}
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int erase(T const& key_value, TreeNode<T>* &p) { /* Implemented in Lecture 19 or 20 */ }
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void print_in_order(std::ostream& ostr, const TreeNode<T>* p) const {
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if (p) {
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print_in_order(ostr, p->left);
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ostr << p->value << "\n";
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print_in_order(ostr, p->right);
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}
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}
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void print_as_sideways_tree(std::ostream& ostr, const TreeNode<T>* p, int depth) const {
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if (p) {
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print_as_sideways_tree(ostr, p->right, depth+1);
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for (int i=0; i<depth; ++i) ostr << " ";
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ostr << p->value << "\n";
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print_as_sideways_tree(ostr, p->left, depth+1);
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}
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}
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};
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#endif
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