#include #include #include #include #include #include #include #include #if defined(OS_WINDOWS) #include #endif namespace hex::log { namespace { wolv::io::File s_loggerFile; bool s_colorOutputEnabled = false; std::recursive_mutex s_loggerMutex; bool s_loggingSuspended = false; bool s_debugLoggingEnabled = false; } void suspendLogging() { s_loggingSuspended = true; } void resumeLogging() { s_loggingSuspended = false; } void enableDebugLogging() { s_debugLoggingEnabled = true; } namespace impl { std::recursive_mutex& getLoggerMutex() { return s_loggerMutex; } bool isLoggingSuspended() { return s_loggingSuspended; } bool isDebugLoggingEnabled() { #if defined(DEBUG) return true; #else return s_debugLoggingEnabled; #endif } FILE *getDestination() { if (s_loggerFile.isValid()) return s_loggerFile.getHandle(); else return stdout; } wolv::io::File& getFile() { return s_loggerFile; } bool isRedirected() { return s_loggerFile.isValid(); } void redirectToFile() { if (s_loggerFile.isValid()) return; for (const auto &path : fs::getDefaultPaths(fs::ImHexPath::Logs, true)) { wolv::io::fs::createDirectories(path); s_loggerFile = wolv::io::File(path / hex::format("{0:%Y%m%d_%H%M%S}.log", fmt::localtime(std::chrono::system_clock::to_time_t(std::chrono::system_clock::now()))), wolv::io::File::Mode::Create); s_loggerFile.disableBuffering(); if (s_loggerFile.isValid()) { s_colorOutputEnabled = true; break; } } } void enableColorPrinting() { s_colorOutputEnabled = true; #if defined(OS_WINDOWS) auto hConsole = ::GetStdHandle(STD_OUTPUT_HANDLE); if (hConsole != INVALID_HANDLE_VALUE) { DWORD mode = 0; if (::GetConsoleMode(hConsole, &mode) == TRUE) { mode |= ENABLE_VIRTUAL_TERMINAL_PROCESSING | ENABLE_PROCESSED_OUTPUT; ::SetConsoleMode(hConsole, mode); } } #endif } std::vector& getLogEntries() { static std::vector logEntries; return logEntries; } void addLogEntry(std::string_view project, std::string_view level, std::string_view message) { getLogEntries().emplace_back(project.data(), level.data(), message.data()); } void printPrefix(FILE *dest, const fmt::text_style &ts, const std::string &level, const char *projectName) { const auto now = fmt::localtime(std::chrono::system_clock::to_time_t(std::chrono::system_clock::now())); fmt::print(dest, "[{0:%H:%M:%S}] ", now); if (s_colorOutputEnabled) fmt::print(dest, ts, "{0} ", level); else fmt::print(dest, "{0} ", level); std::string projectThreadTag = projectName; if (auto threadName = TaskManager::getCurrentThreadName(); !threadName.empty()) projectThreadTag += fmt::format(" | {0}", threadName); constexpr static auto MaxTagLength = 25; if (projectThreadTag.length() > MaxTagLength) projectThreadTag.resize(MaxTagLength); fmt::print(dest, "[{0}] ", projectThreadTag); const auto projectNameLength = projectThreadTag.length(); fmt::print(dest, "{0}", std::string(projectNameLength > MaxTagLength ? 0 : MaxTagLength - projectNameLength, ' ')); } void assertionHandler(bool expr, const char* exprString, const char* file, int line) { if (!expr) { log::error("Assertion failed: {} at {}:{}", exprString, file, line); #if defined (DEBUG) std::abort(); #endif } } namespace color { fmt::color debug() { return fmt::color::medium_sea_green; } fmt::color info() { return fmt::color::steel_blue; } fmt::color warn() { return fmt::color::orange; } fmt::color error() { return fmt::color::indian_red; } fmt::color fatal() { return fmt::color::medium_purple; } } } }