#include "StarException.hpp" #include "StarCasting.hpp" #include "StarLogging.hpp" #include #include namespace Star { static size_t const StackLimit = 256; typedef pair, size_t> StackCapture; inline StackCapture captureStack() { StackCapture stackCapture; stackCapture.second = backtrace(stackCapture.first.ptr(), StackLimit); return stackCapture; } OutputProxy outputStack(StackCapture stack) { return OutputProxy([stack = move(stack)](std::ostream & os) { char** symbols = backtrace_symbols(stack.first.ptr(), stack.second); for (size_t i = 0; i < stack.second; ++i) { os << symbols[i]; if (i + 1 < stack.second) os << std::endl; } if (stack.second == StackLimit) os << std::endl << "[Stack Output Limit Reached]"; ::free(symbols); }); } StarException::StarException() noexcept : StarException(std::string("StarException")) {} StarException::~StarException() noexcept {} StarException::StarException(std::string message) noexcept : StarException("StarException", move(message)) {} StarException::StarException(std::exception const& cause) noexcept : StarException("StarException", std::string(), cause) {} StarException::StarException(std::string message, std::exception const& cause) noexcept : StarException("StarException", move(message), cause) {} const char* StarException::what() const throw() { if (m_whatBuffer.empty()) { std::ostringstream os; m_printException(os, false); m_whatBuffer = os.str(); } return m_whatBuffer.c_str(); } StarException::StarException(char const* type, std::string message) noexcept { auto printException = [](std::ostream& os, bool fullStacktrace, char const* type, std::string message, StackCapture stack) { os << "(" << type << ")"; if (!message.empty()) os << " " << message; if (fullStacktrace) { os << std::endl; os << outputStack(stack); } }; m_printException = bind(printException, _1, _2, type, move(message), captureStack()); } StarException::StarException(char const* type, std::string message, std::exception const& cause) noexcept : StarException(type, move(message)) { auto printException = [](std::ostream& os, bool fullStacktrace, function self, function cause) { self(os, fullStacktrace); os << std::endl << "Caused by: "; cause(os, fullStacktrace); }; std::function printCause; if (auto starException = as(&cause)) { printCause = bind(starException->m_printException, _1, _2); } else { printCause = bind([](std::ostream& os, bool, std::string causeWhat) { os << "std::exception: " << causeWhat; }, _1, _2, std::string(cause.what())); } m_printException = bind(printException, _1, _2, m_printException, move(printCause)); } std::string printException(std::exception const& e, bool fullStacktrace) { std::ostringstream os; printException(os, e, fullStacktrace); return os.str(); } void printException(std::ostream& os, std::exception const& e, bool fullStacktrace) { if (auto starException = as(&e)) starException->m_printException(os, fullStacktrace); else os << "std::exception: " << e.what(); } OutputProxy outputException(std::exception const& e, bool fullStacktrace) { if (auto starException = as(&e)) return OutputProxy(bind(starException->m_printException, _1, fullStacktrace)); else return OutputProxy(bind([](std::ostream& os, std::string what) { os << "std::exception: " << what; }, _1, std::string(e.what()))); } void printStack(char const* message) { Logger::info("Stack Trace (%s)...\n%s", message, outputStack(captureStack())); } void fatalError(char const* message, bool showStackTrace) { if (showStackTrace) Logger::error("Fatal Error: %s\n%s", message, outputStack(captureStack())); else Logger::error("Fatal Error: %s", message); std::abort(); } void fatalException(std::exception const& e, bool showStackTrace) { if (showStackTrace) Logger::error("Fatal Exception caught: %s\nCaught at:\n%s", outputException(e, true), outputStack(captureStack())); else Logger::error("Fatal Exception caught: %s", outputException(e, showStackTrace)); std::abort(); } }