/* Copyright 2021, Michele Santullo * This file is part of remarkable_tool. * * remarkable_tool is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Remarkable_tool is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with remarkable_tool. If not, see . */ #include "notebook_tree.hpp" #include #include #include #include #include namespace fs = std::filesystem; namespace duck { namespace { typedef std::unordered_map NotebookMapType; template std::vector& operator+= (std::vector& dst, const std::vector& src) { dst.insert(dst.end(), src.begin(), src.end()); return dst; } NotebookMapType build_notebook_infos ( const fs::path& from_path ) { simdjson::dom::parser parser; NotebookMapType retval; for (const auto& entry : fs::directory_iterator(from_path)) { NotebookInfo& curr_info = retval[entry.path().stem()]; if (entry.path().extension() == ".metadata") { simdjson::dom::object json_doc = parser.load(entry.path()); curr_info.deleted = json_doc["deleted"]; curr_info.parent = json_doc["parent"]; curr_info.type = json_doc["type"]; curr_info.version = json_doc["version"]; curr_info.visible_name = json_doc["visibleName"]; curr_info.isolated = false; } else if (fs::is_directory(entry)) { for (const auto& subentry : fs::recursive_directory_iterator(entry)) { curr_info.files.push_back(fs::relative(subentry, from_path)); if (fs::is_regular_file(subentry)) curr_info.total_size += fs::file_size(subentry); } } curr_info.files.push_back(fs::relative(entry, from_path)); if (fs::is_regular_file(entry)) curr_info.total_size += fs::file_size(entry); } return retval; } std::vector to_tree (const NotebookMapType& nbs) { std::unordered_map> parents; for (const auto& nb : nbs) { auto it_ins = parents.emplace(nb.second.parent, std::make_pair(0U, Node{nb.second.parent, nullptr, nullptr})); it_ins.first->second.first++; } for (const auto& nb : nbs) { auto it_parent = parents.find(nb.first); if (parents.cend() != it_parent) { Node& node = it_parent->second.second; node.info = &nb.second; } } for (auto& par : parents) { Node& node = par.second.second; const unsigned int children_count = par.second.first; node.children.reserve(children_count); } for (const auto& nb : nbs) { if (0 == parents.count(nb.first)) { Node& parent = parents[nb.second.parent].second; parent.children.emplace_back(nb.first, &nb.second, &parent); } } std::vector roots; std::unordered_map grouped_nodes; for (auto it = parents.begin(), it_end = parents.end(); it != it_end; it = parents.erase(it)) { auto& node = it->second.second; if (node.info) { auto it_parent = parents.find(node.info->parent); Node* dst_node = (parents.end() == it_parent ? grouped_nodes[node.info->parent] : &it_parent->second.second); dst_node->children.push_back(std::move(node)); grouped_nodes[dst_node->children.back().name] = &dst_node->children.back(); } else { roots.push_back(std::move(node)); grouped_nodes[node.name] = &roots.back(); } } return roots; } std::vector to_flat_notebook_list (const Node& tree) { std::vector retval; for (const auto& child : tree.children) { retval += to_flat_notebook_list(child); } if (tree.info) retval.push_back(tree.info); return retval; } std::vector make_dele_list (const Node& tree) { if (tree.info and (tree.info->deleted or tree.info->isolated)) return to_flat_notebook_list(tree); std::vector retval; for (const auto& child : tree.children) { retval += make_dele_list(child); } return retval; } } //unnamed namespace std::vector build_notebook_tree (std::string_view base_path) { auto notebooks = build_notebook_infos(base_path); return to_tree(notebooks); } std::vector make_list_of_deleted (const std::vector& roots) { std::vector dele_list; for (const auto& root : roots) { dele_list += make_dele_list(root); } return dele_list; } } //namespace duck