#include "StdInc.h" #include "CLogger.h" #ifdef VCMI_ANDROID #include namespace ELogLevel { int toAndroid(ELogLevel logLevel) { switch (logLevel) { case TRACE: return ANDROID_LOG_VERBOSE; case DEBUG: return ANDROID_LOG_DEBUG; case INFO: return ANDROID_LOG_INFO; case WARN: return ANDROID_LOG_WARN; case ERROR: return ANDROID_LOG_ERROR; default:; } return ANDROID_LOG_UNKNOWN; } } #endif const std::string CLoggerDomain::DOMAIN_GLOBAL = "global"; CLoggerDomain::CLoggerDomain(std::string name) : name(std::move(name)) { if (this->name.empty()) throw std::runtime_error("Logger domain cannot be empty."); } CLoggerDomain CLoggerDomain::getParent() const { if(isGlobalDomain()) return *this; const size_t pos = name.find_last_of("."); if(pos != std::string::npos) return CLoggerDomain(name.substr(0, pos)); return CLoggerDomain(DOMAIN_GLOBAL); } bool CLoggerDomain::isGlobalDomain() const { return name == DOMAIN_GLOBAL; } const std::string& CLoggerDomain::getName() const { return name; } CLoggerStream::CLoggerStream(const CLogger & logger, ELogLevel::ELogLevel level) : logger(logger), level(level), sbuffer(nullptr) {} CLoggerStream::~CLoggerStream() { if(sbuffer) { logger.log(level, sbuffer->str()); delete sbuffer; sbuffer = nullptr; } } boost::recursive_mutex CLogger::smx; boost::recursive_mutex CLogManager::smx; DLL_LINKAGE CLogger * logGlobal = CLogger::getGlobalLogger(); DLL_LINKAGE CLogger * logBonus = CLogger::getLogger(CLoggerDomain("bonus")); DLL_LINKAGE CLogger * logNetwork = CLogger::getLogger(CLoggerDomain("network")); DLL_LINKAGE CLogger * logAi = CLogger::getLogger(CLoggerDomain("ai")); DLL_LINKAGE CLogger * logAnim = CLogger::getLogger(CLoggerDomain("animation")); CLogger * CLogger::getLogger(const CLoggerDomain & domain) { TLockGuardRec _(smx); CLogger * logger = CLogManager::get().getLogger(domain); if(!logger) // Create new logger { logger = new CLogger(domain); if(domain.isGlobalDomain()) logger->setLevel(ELogLevel::TRACE); CLogManager::get().addLogger(logger); } return logger; } CLogger * CLogger::getGlobalLogger() { return getLogger(CLoggerDomain(CLoggerDomain::DOMAIN_GLOBAL)); } CLogger::CLogger(const CLoggerDomain & domain) : domain(domain) { if(domain.isGlobalDomain()) { level = ELogLevel::TRACE; parent = nullptr; } else { level = ELogLevel::NOT_SET; parent = getLogger(domain.getParent()); } } void CLogger::trace(const std::string & message) const { log(ELogLevel::TRACE, message); } void CLogger::debug(const std::string & message) const { log(ELogLevel::DEBUG, message); } void CLogger::info(const std::string & message) const { log(ELogLevel::INFO, message); } void CLogger::warn(const std::string & message) const { log(ELogLevel::WARN, message); } void CLogger::error(const std::string & message) const { log(ELogLevel::ERROR, message); } CLoggerStream CLogger::traceStream() const { return CLoggerStream(*this, ELogLevel::TRACE); } CLoggerStream CLogger::debugStream() const { return CLoggerStream(*this, ELogLevel::DEBUG); } CLoggerStream CLogger::infoStream() const { return CLoggerStream(*this, ELogLevel::INFO); } CLoggerStream CLogger::warnStream() const { return CLoggerStream(*this, ELogLevel::WARN); } CLoggerStream CLogger::errorStream() const { return CLoggerStream(*this, ELogLevel::ERROR); } void CLogger::log(ELogLevel::ELogLevel level, const std::string & message) const { if(getEffectiveLevel() <= level) callTargets(LogRecord(domain, level, message)); } ELogLevel::ELogLevel CLogger::getLevel() const { TLockGuard _(mx); return level; } void CLogger::setLevel(ELogLevel::ELogLevel level) { TLockGuard _(mx); if (!domain.isGlobalDomain() || level != ELogLevel::NOT_SET) this->level = level; } const CLoggerDomain & CLogger::getDomain() const { return domain; } void CLogger::addTarget(unique_ptr && target) { TLockGuard _(mx); targets.push_back(std::move(target)); } ELogLevel::ELogLevel CLogger::getEffectiveLevel() const { for(const CLogger * logger = this; logger != nullptr; logger = logger->parent) if(logger->getLevel() != ELogLevel::NOT_SET) return logger->getLevel(); // This shouldn't be reached, as the root logger must have set a log level return ELogLevel::INFO; } void CLogger::callTargets(const LogRecord & record) const { TLockGuard _(mx); for(const CLogger * logger = this; logger != nullptr; logger = logger->parent) for(auto & target : logger->targets) target->write(record); } void CLogger::clearTargets() { TLockGuard _(mx); targets.clear(); } bool CLogger::isDebugEnabled() const { return getEffectiveLevel() <= ELogLevel::DEBUG; } bool CLogger::isTraceEnabled() const { return getEffectiveLevel() <= ELogLevel::TRACE; } CTraceLogger::CTraceLogger(const CLogger * logger, const std::string & beginMessage, const std::string & endMessage) : logger(logger), endMessage(endMessage) { logger->trace(beginMessage); } CTraceLogger::~CTraceLogger() { logger->trace(std::move(endMessage)); } CLogManager & CLogManager::get() { TLockGuardRec _(smx); static CLogManager instance; return instance; } CLogManager::CLogManager() { } CLogManager::~CLogManager() { for(auto & i : loggers) delete i.second; } void CLogManager::addLogger(CLogger * logger) { TLockGuard _(mx); loggers[logger->getDomain().getName()] = logger; } CLogger * CLogManager::getLogger(const CLoggerDomain & domain) { TLockGuard _(mx); auto it = loggers.find(domain.getName()); if(it != loggers.end()) return it->second; else return nullptr; } CLogFormatter::CLogFormatter() : CLogFormatter("%m") { } CLogFormatter::CLogFormatter(const std::string & pattern) : pattern(pattern) { boost::posix_time::time_facet * facet = new boost::posix_time::time_facet("%H:%M:%S.%f"); dateStream.imbue(std::locale(dateStream.getloc(), facet)); } CLogFormatter::CLogFormatter(const CLogFormatter & c) : pattern(c.pattern) { } CLogFormatter::CLogFormatter(CLogFormatter && m) : pattern(std::move(m.pattern)) { } CLogFormatter & CLogFormatter::operator=(const CLogFormatter & c) { pattern = c.pattern; return *this; } CLogFormatter & CLogFormatter::operator=(CLogFormatter && m) { pattern = std::move(m.pattern); return *this; } std::string CLogFormatter::format(const LogRecord & record) const { std::string message = pattern; // Format date dateStream.str(std::string()); dateStream.clear(); dateStream << record.timeStamp; boost::algorithm::replace_first(message, "%d", dateStream.str()); // Format log level std::string level; switch(record.level) { case ELogLevel::TRACE: level = "TRACE"; break; case ELogLevel::DEBUG: level = "DEBUG"; break; case ELogLevel::INFO: level = "INFO"; break; case ELogLevel::WARN: level = "WARN"; break; case ELogLevel::ERROR: level = "ERROR"; break; } boost::algorithm::replace_first(message, "%l", level); // Format name, thread id and message boost::algorithm::replace_first(message, "%n", record.domain.getName()); boost::algorithm::replace_first(message, "%t", boost::lexical_cast(record.threadId)); boost::algorithm::replace_first(message, "%m", record.message); return message; } void CLogFormatter::setPattern(const std::string & pattern) { this->pattern = pattern; } void CLogFormatter::setPattern(std::string && pattern) { this->pattern = std::move(pattern); } const std::string & CLogFormatter::getPattern() const { return pattern; } CColorMapping::CColorMapping() { // Set default mappings auto & levelMap = map[CLoggerDomain::DOMAIN_GLOBAL]; levelMap[ELogLevel::TRACE] = EConsoleTextColor::GRAY; levelMap[ELogLevel::DEBUG] = EConsoleTextColor::WHITE; levelMap[ELogLevel::INFO] = EConsoleTextColor::GREEN; levelMap[ELogLevel::WARN] = EConsoleTextColor::YELLOW; levelMap[ELogLevel::ERROR] = EConsoleTextColor::RED; } void CColorMapping::setColorFor(const CLoggerDomain & domain, ELogLevel::ELogLevel level, EConsoleTextColor::EConsoleTextColor color) { assert(level != ELogLevel::NOT_SET); map[domain.getName()][level] = color; } EConsoleTextColor::EConsoleTextColor CColorMapping::getColorFor(const CLoggerDomain & domain, ELogLevel::ELogLevel level) const { CLoggerDomain currentDomain = domain; while(true) { const auto & loggerPair = map.find(currentDomain.getName()); if(loggerPair != map.end()) { const auto & levelMap = loggerPair->second; const auto & levelPair = levelMap.find(level); if(levelPair != levelMap.end()) return levelPair->second; } if (currentDomain.isGlobalDomain()) break; currentDomain = currentDomain.getParent(); } throw std::runtime_error("failed to find color for requested domain/level pair"); } CLogConsoleTarget::CLogConsoleTarget(CConsoleHandler * console) : console(console), threshold(ELogLevel::INFO), coloredOutputEnabled(true) { formatter.setPattern("%m"); } void CLogConsoleTarget::write(const LogRecord & record) { if(threshold > record.level) return; std::string message = formatter.format(record); #ifdef VCMI_ANDROID __android_log_write(ELogLevel::toAndroid(record.level), "VCMI", message.c_str()); #endif const bool printToStdErr = record.level >= ELogLevel::WARN; if(console) { const EConsoleTextColor::EConsoleTextColor textColor = coloredOutputEnabled ? colorMapping.getColorFor(record.domain, record.level) : EConsoleTextColor::DEFAULT; console->print(message, true, textColor, printToStdErr); } else { TLockGuard _(mx); if(printToStdErr) std::cerr << message << std::endl; else std::cout << message << std::endl; } } bool CLogConsoleTarget::isColoredOutputEnabled() const { return coloredOutputEnabled; } void CLogConsoleTarget::setColoredOutputEnabled(bool coloredOutputEnabled) { this->coloredOutputEnabled = coloredOutputEnabled; } ELogLevel::ELogLevel CLogConsoleTarget::getThreshold() const { return threshold; } void CLogConsoleTarget::setThreshold(ELogLevel::ELogLevel threshold) { this->threshold = threshold; } const CLogFormatter & CLogConsoleTarget::getFormatter() const { return formatter; } void CLogConsoleTarget::setFormatter(const CLogFormatter & formatter) { this->formatter = formatter; } const CColorMapping & CLogConsoleTarget::getColorMapping() const { return colorMapping; } void CLogConsoleTarget::setColorMapping(const CColorMapping & colorMapping) { this->colorMapping = colorMapping; } CLogFileTarget::CLogFileTarget(boost::filesystem::path filePath, bool append /*= true*/) : file(std::move(filePath), append ? std::ios_base::app : std::ios_base::out) { formatter.setPattern("%d %l %n [%t] - %m"); } void CLogFileTarget::write(const LogRecord & record) { TLockGuard _(mx); file << formatter.format(record) << std::endl; } const CLogFormatter & CLogFileTarget::getFormatter() const { return formatter; } void CLogFileTarget::setFormatter(const CLogFormatter & formatter) { this->formatter = formatter; }