#ifndef MARISA_TRIE_INLINE_H_ #define MARISA_TRIE_INLINE_H_ #include #include "cell.h" namespace marisa { inline std::string Trie::operator[](UInt32 key_id) const { std::string key; restore(key_id, &key); return key; } inline UInt32 Trie::operator[](const char *str) const { return lookup(str); } inline UInt32 Trie::operator[](const std::string &str) const { return lookup(str); } inline UInt32 Trie::lookup(const std::string &str) const { return lookup(str.c_str(), str.length()); } inline std::size_t Trie::find(const std::string &str, UInt32 *key_ids, std::size_t *key_lengths, std::size_t max_num_results) const { return find(str.c_str(), str.length(), key_ids, key_lengths, max_num_results); } inline std::size_t Trie::find(const std::string &str, std::vector *key_ids, std::vector *key_lengths, std::size_t max_num_results) const { return find(str.c_str(), str.length(), key_ids, key_lengths, max_num_results); } inline UInt32 Trie::find_first(const std::string &str, std::size_t *key_length) const { return find_first(str.c_str(), str.length(), key_length); } inline UInt32 Trie::find_last(const std::string &str, std::size_t *key_length) const { return find_last(str.c_str(), str.length(), key_length); } template inline std::size_t Trie::find_callback(const char *str, T callback) const { MARISA_THROW_IF(empty(), MARISA_STATE_ERROR); MARISA_THROW_IF(str == NULL, MARISA_PARAM_ERROR); return find_callback_(CQuery(str), callback); } template inline std::size_t Trie::find_callback(const char *ptr, std::size_t length, T callback) const { MARISA_THROW_IF(empty(), MARISA_STATE_ERROR); MARISA_THROW_IF((ptr == NULL) && (length != 0), MARISA_PARAM_ERROR); return find_callback_(Query(ptr, length), callback); } template inline std::size_t Trie::find_callback(const std::string &str, T callback) const { return find_callback(str.c_str(), str.length(), callback); } inline std::size_t Trie::predict(const std::string &str, UInt32 *key_ids, std::string *keys, std::size_t max_num_results) const { return predict(str.c_str(), str.length(), key_ids, keys, max_num_results); } inline std::size_t Trie::predict(const std::string &str, std::vector *key_ids, std::vector *keys, std::size_t max_num_results) const { return predict(str.c_str(), str.length(), key_ids, keys, max_num_results); } inline std::size_t Trie::predict_breadth_first(const std::string &str, UInt32 *key_ids, std::string *keys, std::size_t max_num_results) const { return predict_breadth_first(str.c_str(), str.length(), key_ids, keys, max_num_results); } inline std::size_t Trie::predict_breadth_first(const std::string &str, std::vector *key_ids, std::vector *keys, std::size_t max_num_results) const { return predict_breadth_first(str.c_str(), str.length(), key_ids, keys, max_num_results); } inline std::size_t Trie::predict_depth_first(const std::string &str, UInt32 *key_ids, std::string *keys, std::size_t max_num_results) const { return predict_depth_first(str.c_str(), str.length(), key_ids, keys, max_num_results); } inline std::size_t Trie::predict_depth_first(const std::string &str, std::vector *key_ids, std::vector *keys, std::size_t max_num_results) const { return predict_depth_first(str.c_str(), str.length(), key_ids, keys, max_num_results); } template inline std::size_t Trie::predict_callback( const char *str, T callback) const { return predict_callback_(CQuery(str), callback); } template inline std::size_t Trie::predict_callback( const char *ptr, std::size_t length, T callback) const { return predict_callback_(Query(ptr, length), callback); } template inline std::size_t Trie::predict_callback( const std::string &str, T callback) const { return predict_callback(str.c_str(), str.length(), callback); } inline bool Trie::empty() const { return louds_.empty(); } inline std::size_t Trie::num_keys() const { return num_keys_; } inline UInt32 Trie::notfound() { return MARISA_NOT_FOUND; } inline std::size_t Trie::mismatch() { return MARISA_MISMATCH; } template inline bool Trie::find_child(UInt32 &node, T query, std::size_t &pos) const { UInt32 louds_pos = get_child(node); if (!louds_[louds_pos]) { return false; } node = louds_pos_to_node(louds_pos, node); UInt32 link_id = MARISA_UINT32_MAX; do { if (has_link(node)) { if (link_id == MARISA_UINT32_MAX) { link_id = get_link_id(node); } else { ++link_id; } std::size_t next_pos = has_trie() ? trie_->trie_match(get_link(node, link_id), query, pos) : tail_match(node, link_id, query, pos); if (next_pos == mismatch()) { return false; } else if (next_pos != pos) { pos = next_pos; return true; } } else if (labels_[node] == query[pos]) { ++pos; return true; } ++node; ++louds_pos; } while (louds_[louds_pos]); return false; } template std::size_t Trie::find_callback_(T query, U callback) const { std::size_t count = 0; UInt32 node = 0; std::size_t pos = 0; do { if (terminal_flags_[node]) { ++count; if (!callback(node_to_key_id(node), pos)) { return count; } } } while (!query.ends_at(pos) && find_child(node, query, pos)); return count; } template inline bool Trie::predict_child(UInt32 &node, T query, std::size_t &pos, std::string *key) const { UInt32 louds_pos = get_child(node); if (!louds_[louds_pos]) { return false; } node = louds_pos_to_node(louds_pos, node); UInt32 link_id = MARISA_UINT32_MAX; do { if (has_link(node)) { if (link_id == MARISA_UINT32_MAX) { link_id = get_link_id(node); } else { ++link_id; } std::size_t next_pos = has_trie() ? trie_->trie_prefix_match( get_link(node, link_id), query, pos, key) : tail_prefix_match(node, link_id, query, pos, key); if (next_pos == mismatch()) { return false; } else if (next_pos != pos) { pos = next_pos; return true; } } else if (labels_[node] == query[pos]) { ++pos; return true; } ++node; ++louds_pos; } while (louds_[louds_pos]); return false; } template std::size_t Trie::predict_callback_(T query, U callback) const { std::string key; UInt32 node = 0; std::size_t pos = 0; while (!query.ends_at(pos)) { if (!predict_child(node, query, pos, &key)) { return 0; } } query.insert(&key); std::size_t count = 0; if (terminal_flags_[node]) { ++count; if (!callback(node_to_key_id(node), key)) { return count; } } Cell cell; cell.set_louds_pos(get_child(node)); if (!louds_[cell.louds_pos()]) { return count; } cell.set_node(louds_pos_to_node(cell.louds_pos(), node)); cell.set_key_id(node_to_key_id(cell.node())); cell.set_length(key.length()); Vector stack; stack.push_back(cell); std::size_t stack_pos = 1; while (stack_pos != 0) { Cell &cur = stack[stack_pos - 1]; if (!louds_[cur.louds_pos()]) { cur.set_louds_pos(cur.louds_pos() + 1); --stack_pos; continue; } cur.set_louds_pos(cur.louds_pos() + 1); key.resize(cur.length()); if (has_link(cur.node())) { if (has_trie()) { trie_->trie_restore(get_link(cur.node()), &key); } else { tail_restore(cur.node(), &key); } } else { key += labels_[cur.node()]; } if (terminal_flags_[cur.node()]) { ++count; if (!callback(cur.key_id(), key)) { return count; } cur.set_key_id(cur.key_id() + 1); } if (stack_pos == stack.size()) { cell.set_louds_pos(get_child(cur.node())); cell.set_node(louds_pos_to_node(cell.louds_pos(), cur.node())); cell.set_key_id(node_to_key_id(cell.node())); stack.push_back(cell); } stack[stack_pos].set_length(key.length()); stack[stack_pos - 1].set_node(stack[stack_pos - 1].node() + 1); ++stack_pos; } return count; } inline UInt32 Trie::key_id_to_node(UInt32 key_id) const { return terminal_flags_.select1(key_id); } inline UInt32 Trie::node_to_key_id(UInt32 node) const { return terminal_flags_.rank1(node); } inline UInt32 Trie::louds_pos_to_node(UInt32 louds_pos, UInt32 parent_node) const { return louds_pos - parent_node - 1; } inline UInt32 Trie::get_child(UInt32 node) const { return louds_.select0(node) + 1; } inline UInt32 Trie::get_parent(UInt32 node) const { return (node > num_first_branches_) ? (louds_.select1(node) - node - 1) : 0; } inline bool Trie::has_link(UInt32 node) const { return (link_flags_.empty()) ? false : link_flags_[node]; } inline UInt32 Trie::get_link_id(UInt32 node) const { return link_flags_.rank1(node); } inline UInt32 Trie::get_link(UInt32 node) const { return get_link(node, get_link_id(node)); } inline UInt32 Trie::get_link(UInt32 node, UInt32 link_id) const { return (links_[link_id] * 256) + labels_[node]; } inline bool Trie::has_link() const { return !link_flags_.empty(); } inline bool Trie::has_trie() const { return trie_.get() != NULL; } inline bool Trie::has_tail() const { return !tail_.empty(); } } // namespace marisa #endif // MARISA_TRIE_INLINE_H_