#include #include "config.hpp" #include "text.hpp" #include "DeviceHandler.hpp" #include "gecko.h" static const char *g_whitespaces = " \f\n\r\t\v"; static const int g_floatPrecision = 10; const string Config::emptyString; Config::Config(void) : m_loaded(false), m_changed(false), m_domains(), m_filename(), m_iter() { } static string trimEnd(string line) { string::size_type i = line.find_last_not_of(g_whitespaces); if (i == string::npos) line.clear(); else line.resize(i + 1); return line; } static string trim(string line) { string::size_type i = line.find_last_not_of(g_whitespaces); if (i == string::npos) { line.clear(); return line; } else line.resize(i + 1); i = line.find_first_not_of(g_whitespaces); if (i > 0) line.erase(0, i); return line; } static string unescNewlines(const string &text) { string s; bool escaping = false; s.reserve(text.size()); for (string::size_type i = 0; i < text.size(); ++i) { if (escaping) { switch (text[i]) { case 'n': s.push_back('\n'); break; default: s.push_back(text[i]); } escaping = false; } else if (text[i] == '\\') escaping = true; else s.push_back(text[i]); } return s; } static string escNewlines(const string &text) { string s; s.reserve(text.size()); for (string::size_type i = 0; i < text.size(); ++i) { switch (text[i]) { case '\n': s.push_back('\\'); s.push_back('n'); break; case '\\': s.push_back('\\'); s.push_back('\\'); break; default: s.push_back(text[i]); } } return s; } bool Config::hasDomain(const string &domain) const { return m_domains.find(domain) != m_domains.end(); } void Config::copyDomain(const string &dst, const string &src) { m_domains[dst] = m_domains[src]; } const string &Config::firstDomain(void) { m_iter = m_domains.begin(); if (m_iter == m_domains.end()) return Config::emptyString; return m_iter->first; } const string &Config::nextDomain(void) { ++m_iter; if (m_iter == m_domains.end()) return Config::emptyString; return m_iter->first; } const string &Config::nextDomain(const string &start) const { Config::DomainMap::const_iterator i; Config::DomainMap::const_iterator j; if (m_domains.empty()) return Config::emptyString; i = m_domains.find(start); if (i == m_domains.end()) return m_domains.begin()->first; j = i; ++j; return j != m_domains.end() ? j->first : i->first; } const string &Config::prevDomain(const string &start) const { Config::DomainMap::const_iterator i; if (m_domains.empty()) return Config::emptyString; i = m_domains.find(start); if (i == m_domains.end() || i == m_domains.begin()) return m_domains.begin()->first; --i; return i->first; } bool Config::load(const char *filename) { if (m_loaded && m_changed) save(); ifstream file(filename, ios::in | ios::binary); string line; string domain(""); m_changed = false; m_loaded = false; m_filename = filename; u32 n = 0; if (!file.is_open()) return m_loaded; m_domains.clear(); while (file.good()) { line.clear(); getline(file, line, '\n'); ++n; if (!file.bad() && !file.fail()) { line = trimEnd(line); if (line.empty() || line[0] == '#') continue; if (line[0] == '[') { string::size_type i = line.find_first_of(']'); if (i != string::npos && i > 1) { domain = upperCase(line.substr(1, i - 1)); if (m_domains.find(domain) != m_domains.end()) domain.clear(); } } else if (!domain.empty()) { string::size_type i = line.find_first_of('='); if (i != string::npos && i > 0) m_domains[domain][lowerCase(trim(line.substr(0, i)))] = unescNewlines(trim(line.substr(i + 1))); } } } m_loaded = true; return m_loaded; } void Config::unload(void) { m_loaded = false; m_changed = false; m_filename = emptyString; m_domains.clear(); } void Config::save(bool unload) { if (m_changed) { ofstream file(m_filename.c_str(), ios::out | ios::binary); for (Config::DomainMap::iterator k = m_domains.begin(); k != m_domains.end(); ++k) { Config::KeyMap *m = &k->second; file << '\n' << '[' << k->first << ']' << '\n'; for (Config::KeyMap::iterator l = m->begin(); l != m->end(); ++l) file << l->first << '=' << escNewlines(l->second) << '\n'; } m_changed = false; } if(unload) this->unload(); } bool Config::has(const std::string &domain, const std::string &key) const { if (domain.empty() || key.empty()) return false; DomainMap::const_iterator i = m_domains.find(upperCase(domain)); if (i == m_domains.end()) return false; return i->second.find(lowerCase(key)) != i->second.end(); } void Config::setWString(const string &domain, const string &key, const wstringEx &val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = val.toUTF8(); } void Config::setString(const string &domain, const string &key, const string &val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = val; } void Config::setBool(const string &domain, const string &key, bool val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = val ? "yes" : "no"; } void Config::remove(const string &domain, const string &key) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)].erase(lowerCase(key)); } void Config::setOptBool(const string &domain, const string &key, int val) { if (domain.empty() || key.empty()) return; m_changed = true; switch (val) { case 0: m_domains[upperCase(domain)][lowerCase(key)] = "no"; break; case 1: m_domains[upperCase(domain)][lowerCase(key)] = "yes"; break; default: m_domains[upperCase(domain)][lowerCase(key)] = "default"; } } void Config::setInt(const string &domain, const string &key, int val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = sfmt("%i", val); } void Config::setUInt(const std::string &domain, const std::string &key, unsigned int val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = sfmt("%u", val); } void Config::setFloat(const string &domain, const string &key, float val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = sfmt("%.*g", g_floatPrecision, val); } void Config::setVector3D(const std::string &domain, const std::string &key, const Vector3D &val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = sfmt("%.*g, %.*g, %.*g", g_floatPrecision, val.x, g_floatPrecision, val.y, g_floatPrecision, val.z); } void Config::setColor(const std::string &domain, const std::string &key, const CColor &val) { if (domain.empty() || key.empty()) return; m_changed = true; m_domains[upperCase(domain)][lowerCase(key)] = sfmt("#%.2X%.2X%.2X%.2X", val.r, val.g, val.b, val.a); } wstringEx Config::getWString(const string &domain, const string &key, const wstringEx &defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) { data = defVal.toUTF8(); m_changed = true; return defVal; } wstringEx ws; ws.fromUTF8(data.c_str()); return ws; } string Config::getString(const string &domain, const string &key, const string &defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty() || strncasecmp(data.c_str(), "usb:", 4) == 0) { data = defVal; m_changed = true; } return data; } vector Config::getStrings(const string &domain, const string &key, char seperator, const string &defVal) { vector retval; if(domain.empty() || key.empty()) { if(defVal != std::string()) retval.push_back(defVal); return retval; } string &data = m_domains[upperCase(domain)][lowerCase(key)]; if(data.empty()) { if(defVal != std::string()) retval.push_back(defVal); return retval; } // Parse the string into different substrings // skip delimiters at beginning. string::size_type lastPos = data.find_first_not_of(seperator, 0); // find first "non-delimiter". string::size_type pos = data.find_first_of(seperator, lastPos); // no seperator found, return data if(pos == string::npos) { retval.push_back(data); return retval; } while(string::npos != pos || string::npos != lastPos) { // found a token, add it to the vector. retval.push_back(data.substr(lastPos, pos - lastPos)); // skip delimiters. Note the "not_of" lastPos = data.find_first_not_of(seperator, pos); // find next "non-delimiter" pos = data.find_first_of(seperator, lastPos); } return retval; } bool Config::getBool(const string &domain, const string &key, bool defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) { data = defVal ? "yes" : "no"; m_changed = true; return defVal; } string s(lowerCase(trim(data))); if (s == "yes" || s == "true" || s == "y" || s == "1") return true; return false; } bool Config::testOptBool(const string &domain, const string &key, bool defVal) { if (domain.empty() || key.empty()) return defVal; KeyMap &km = m_domains[upperCase(domain)]; KeyMap::iterator i = km.find(lowerCase(key)); if (i == km.end()) return defVal; string s(lowerCase(trim(i->second))); if (s == "yes" || s == "true" || s == "y" || s == "1") return true; if (s == "no" || s == "false" || s == "n" || s == "0") return false; return defVal; } int Config::getOptBool(const string &domain, const string &key, int defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) { switch (defVal) { case 0: data = "no"; break; case 1: data = "yes"; break; default: data = "default"; } m_changed = true; return defVal; } string s(lowerCase(trim(data))); if (s == "yes" || s == "true" || s == "y" || s == "1") return 1; if (s == "no" || s == "false" || s == "n" || s == "0") return 0; return 2; } int Config::getInt(const string &domain, const string &key, int defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) { data = sfmt("%i", defVal); m_changed = true; return defVal; } return strtol(data.c_str(), 0, 10); } bool Config::getInt(const std::string &domain, const std::string &key, int *value) { if (domain.empty() || key.empty()) return false; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) return false; *value = strtol(data.c_str(), 0, 10); return true; } unsigned int Config::getUInt(const string &domain, const string &key, unsigned int defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) { data = sfmt("%u", defVal); m_changed = true; return defVal; } return strtoul(data.c_str(), 0, 10); } float Config::getFloat(const string &domain, const string &key, float defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; if (data.empty()) { data = sfmt("%.*g", g_floatPrecision, defVal); m_changed = true; return defVal; } return strtod(data.c_str(), 0); } Vector3D Config::getVector3D(const std::string &domain, const std::string &key, const Vector3D &defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; string::size_type i; string::size_type j = string::npos; i = data.find_first_of(','); if (i != string::npos) j = data.find_first_of(',', i + 1); if (j == string::npos) { data = sfmt("%.*g, %.*g, %.*g", g_floatPrecision, defVal.x, g_floatPrecision, defVal.y, g_floatPrecision, defVal.z); m_changed = true; return defVal; } return Vector3D(strtod(data.substr(0, i).c_str(), 0), strtod(data.substr(i + 1, j - i - 1).c_str(), 0), strtod(data.substr(j + 1).c_str(), 0)); } CColor Config::getColor(const std::string &domain, const std::string &key, const CColor &defVal) { if (domain.empty() || key.empty()) return defVal; string &data = m_domains[upperCase(domain)][lowerCase(key)]; string text(upperCase(trim(data))); u32 i = (u32)text.find_first_of('#'); if (i != string::npos) { text.erase(0, i + 1); i = (u32)text.find_first_not_of("0123456789ABCDEF"); if ((i != string::npos && i >= 6) || (i == string::npos && text.size() >= 6)) { u32 n = ((i != string::npos && i >= 8) || (i == string::npos && text.size() >= 8)) ? 8 : 6; for (i = 0; i < n; ++i) if (text[i] <= '9') text[i] -= '0'; else text[i] -= 'A' - 10; CColor c(text[0] * 0x10 + text[1], text[2] * 0x10 + text[3], text[4] * 0x10 + text[5], 1.f); if (n == 8) c.a = text[6] * 0x10 + text[7]; return c; } } data = sfmt("#%.2X%.2X%.2X%.2X", defVal.r, defVal.g, defVal.b, defVal.a); m_changed = true; return defVal; }