/* * @file Profile.cpp * @author Robert Borzecki (robert.borzecki@mudita.com) * @date 24 cze 2019 * @brief * @copyright Copyright (C) 2019 mudita.com * @details */ #include #include #include #include #include "log/log.hpp" #include "utf8/UTF8.hpp" #include "vfs.hpp" #include "Profile.hpp" namespace gui { KeyProfile::KeyProfile() {} KeyProfile::~KeyProfile() {} Profile::Profile(const std::string &name) { LOG_INFO("Create!"); load(name); } Profile::Profile(Profile &&p) { this->name = p.name; this->keys = p.keys; // this is important, we need to assure that moved Profile doesn't clean up our memory again p.clear(); } Profile::~Profile() { for (auto it = keys.begin(); it != keys.end(); it++) { delete it->second; } keys.clear(); } static inline std::string trim(const std::string &s) { auto wsfront = std::find_if_not(s.begin(), s.end(), [](int c) { return std::isspace(c); }); return std::string(wsfront, std::find_if_not(s.rbegin(), std::string::const_reverse_iterator(wsfront), [](int c) { return std::isspace(c); }).base()); } template void split(const std::string &s, char delim, Out result) { std::stringstream ss(s); std::string item; while (std::getline(ss, item, delim)) { *(result++) = item; } } static std::vector split(const std::string &s, char delim) { std::vector elems; split(s, delim, std::back_inserter(elems)); return elems; } bool Profile::load(std::string filename) { auto file = vfs.fopen(filename.c_str(), "rb"); enum class LineType { KEY_CODE = 0, CYCLIC, CHARACTERS, TIMEOUTS }; LineType lineType = LineType::KEY_CODE; bool name = false; KeyProfile *pk = nullptr; KeyProfile tmp; while (vfs.eof(file) != true) { std::string line = trim(vfs.getline(file)); if ((line[0] == '#') || (line.empty())) { continue; } else { // first not commented line is a name of profile if (name == false) { LOG_INFO("profile name: %s", line.c_str()); setName(line); name = true; } else { // new structure, create profile key and read the keyboard's key code if (lineType == LineType::KEY_CODE) { uint32_t keyCode; std::stringstream(line) >> keyCode; pk = new KeyProfile(); pk->keyCode = keyCode; lineType = LineType::CYCLIC; } else if (lineType == LineType::CYCLIC) { pk->cyclic = (line.compare("true") == 0); lineType = LineType::CHARACTERS; } else if (lineType == LineType::CHARACTERS) { addCharacters(pk, line); lineType = LineType::TIMEOUTS; } else if (lineType == LineType::TIMEOUTS) { addTimeouts(pk, line); if ((pk->chars.size() == pk->timeouts.size()) && (keys.find(pk->keyCode) == keys.end())) { addKeyProfile(pk); } else { LOG_FATAL("Incorrect number of chars or key code duplicate key code: [%d]", pk->keyCode); delete pk; pk = nullptr; } lineType = LineType::KEY_CODE; } else { LOG_FATAL("invalid line: [%s]", line.c_str()); } } } } vfs.fclose(file); return true; } void Profile::addCharacters(KeyProfile *pk, const std::string &s) { uint32_t charKey; std::vector vec = split(s, ','); for (std::string s : vec) { std::string ts = trim(s); if (ts[0] == '\'') { // empty character - no character if (s.size() == 2) { pk->chars.push_back(0); break; } ts = s.substr(1, s.size() - 1); UTF8 utf = UTF8(ts); charKey = utf[0]; pk->chars.push_back(charKey); } else if (ts.substr(0, 2) == "0x") { std::stringstream ss; ss << std::hex << ts; ss >> charKey; pk->chars.push_back(charKey); } } } void Profile::addTimeouts(KeyProfile *pk, const std::string &s) { uint32_t timeout; std::vector vec = split(s, ','); for (std::string s : vec) { std::stringstream(trim(s)) >> timeout; pk->timeouts.push_back(timeout); } } void Profile::addKeyProfile(KeyProfile *pk) { if (pk != nullptr) keys.insert(std::pair(pk->keyCode, pk)); } const KeyProfile *Profile::getKeyProfile(uint32_t keyCode) { auto key = keys.find(keyCode); if (key != keys.end()) return key->second; return nullptr; } uint32_t Profile::get(bsp::KeyCodes code, uint32_t times) { const KeyProfile *p = getKeyProfile(uint32_t(code)); if (p == nullptr) { LOG_ERROR("KeyProfile for key: %d not found", code); return 0; } return p->chars[times % p->chars.size()]; } } /* namespace gui */