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#ifndef TRIE_TRIE_HPP
#define TRIE_TRIE_HPP #include <algorithm> #include <cassert> #include <string> #include <iostream> struct Key { static constexpr size_t size() { return ('Z' - 'A' + 1) + ('z' - 'a' + 1); } static constexpr size_t map(char c) { assert(c>='a' && c<='z' || c>='A' && c<='Z'); if (c>='a' && c<='z') { c = c - 'a' + 'A'; } return c - 'A'; } }; template <typename Object> class Trie { public: Trie() : node{nullptr}, size_{0} { } Trie(const Trie &rhs) : node(rhs.node ? new Node(*rhs.node) : nullptr), size_{rhs.size_} { } Trie(Trie &&trie) : Trie() { swap(*this, trie); } friend void swap(Trie &lhs, Trie &rhs) { using std::swap; swap(lhs.node, rhs.node); swap(lhs.size_, rhs.size_); } ~Trie() { delete node; } Trie & operator=(Trie rhs) { swap(*this, rhs); return *this; } Trie & insert(const std::string &key, const Object &obj) { recursive_insert(node, key.c_str(), obj); return *this; } std::size_t size() const { return size_; } template <typename Visitor> const Trie & visit(const std::string &key, const Visitor &visitor) const { recursive_visit(node, key.c_str(), visitor); return *this; } private: struct Node { Node(const Object *value= nullptr) : node{}, object{nullptr} { if (value) { object = new Object(*value); } } Node(const Node &rhs) : object{nullptr} { if (rhs.object) { object = new Object(*rhs.object); } for (std::size_t i=0; i<Key::size(); ++i) { node[i] = (rhs.node[i]) ? new Node(*rhs.node[i]) : nullptr; } } ~Node() { for (std::size_t i=0; i<Key::size(); ++i) { delete node[i]; } delete object; } Node *node[Key::size()]; Object *object; }; void recursive_insert(Node *&root, const char *c, const Object &value) { if (!root) { root = new Node(); } if (*c) { std::size_t key = Key::map(*c); recursive_insert(root->node[key], c+1, value); } else { if (root->object) { std::cout << "Remove old object!" << std::endl; delete root->object; } else { ++size_; } root->object = new Object(value); } } template <typename Visitor> void recursive_visit(Node *root, const char *c, const Visitor &visitor) const { if (!root) { return; } if (c && *c) { std::size_t key = Key::map(*c); recursive_visit(root->node[key], c+1, visitor); } else { if (root->object) { visitor(*root->object); } for (std::size_t i=0; i<Key::size(); ++i) { recursive_visit(root->node[i], nullptr, visitor); } } } Node *node; std::size_t size_; }; #endif // TRIE_TRIE_HPP |