#include "ngcore_api.hpp" #include "utils.hpp" #include "logging.hpp" #include "simd_generic.hpp" #ifdef WIN32 #define WIN32_LEAN_AND_MEAN #include #undef WIN32_LEAN_AND_MEAN #else // WIN32 #include #include #endif //WIN32 // #include #include #include #include #include #include #include "ngstream.hpp" namespace ngcore { namespace detail { // see https://github.com/RobotLocomotion/drake/blob/master/common/nice_type_name.cc static const auto demangle_regexes = std::array, 8>{ // Remove unwanted keywords and following space. (\b is word boundary.) std::make_pair(std::regex("\\b(class|struct|enum|union) "), ""), // Tidy up anonymous namespace. {std::regex("[`(]anonymous namespace[')]"), "(anonymous)"}, // Replace Microsoft __int64 with long long. {std::regex("\\b__int64\\b"), "long long"}, // Temporarily replace spaces we want to keep with "!". (\w is // alphanumeric or underscore.) {std::regex("(\\w) (\\w)"), "$1!$2"}, {std::regex(" "), ""}, // Delete unwanted spaces. // Some compilers throw in extra namespaces like "__1" or "__cxx11". // Delete them. {std::regex("\\b__[[:alnum:]_]+::"), ""}, {std::regex("!"), " "}, // Restore wanted spaces. // Recognize std::string's full name and abbreviate. {std::regex("\\bstd::basic_string," "std::allocator>"), "std::string"} }; std::string CleanupDemangledName( std::string s ) { for(const auto & [r, sub] : demangle_regexes) s = std::regex_replace (s,r,sub); #ifdef EMSCRIPTEN // for some reason regex_replace is not working at all std::string temp = s; s = ""; for(auto c : temp) if(c!=' ') s+=c; #endif // EMSCRIPTEN return s; } } // namespace detail // parallel netgen int id = 0, ntasks = 1; #ifdef WIN32 // windows does demangling in typeid(T).name() NGCORE_API std::string Demangle(const char* typeinfo) { std::string name = typeinfo; return detail::CleanupDemangledName(name); } #else NGCORE_API std::string Demangle(const char* typeinfo) { int status=0; try { char *s = abi::__cxa_demangle(typeinfo, nullptr, nullptr, &status); std::string result; if (s == nullptr) result = typeinfo; else { result = s; free(s); } result = detail::CleanupDemangledName(result); return result; } catch( const std::exception & e ) { GetLogger("utils")->warn("{}:{} cannot demangle {}, status: {}, error:{}", __FILE__, __LINE__, typeinfo, status, e.what()); } std::string name = typeinfo; return detail::CleanupDemangledName(name); } #endif double seconds_per_tick = [] () noexcept { auto tick_start = GetTimeCounter(); double tstart = WallTime(); double tend = WallTime()+0.001; // wait for 1ms and compare wall time with time counter while(WallTime()(tick_end-tick_start); }(); const std::chrono::time_point wall_time_start = TClock::now(); int printmessage_importance = getenv("NG_MESSAGE_LEVEL") ? atoi(getenv("NG_MESSAGE_LEVEL")) : 0; bool NGSOStream :: glob_active = true; NGCORE_API int GetCompiledSIMDSize() { return GetDefaultSIMDSize(); } NGCORE_API bool IsRangeCheckEnabled() { #ifdef NETGEN_ENABLE_CHECK_RANGE return true; #else return false; #endif } NGCORE_API std::filesystem::path GetTempFilename() { static int counter = 0; auto path = std::filesystem::temp_directory_path(); path += ".temp_netgen_file_"+ToString(counter++)+"_"+ToString(GetTimeCounter()); return path; } SharedLibrary :: SharedLibrary(const std::filesystem::path & lib_name_, std::optional directory_to_delete_, bool global ) : lib_name(lib_name_),directory_to_delete(directory_to_delete_) { Load(lib_name, global); } SharedLibrary :: ~SharedLibrary() { Unload(); if(directory_to_delete) for([[maybe_unused]] auto i : Range(5)) { // on Windows, a (detached?) child process of the compiler/linker might still block the directory // wait for it to finish (up to a second) try { std::filesystem::remove_all(*directory_to_delete); directory_to_delete = std::nullopt; break; } catch(const std::exception &e) { std::this_thread::sleep_for(std::chrono::milliseconds(200)); } } if(directory_to_delete) std::cerr << "Could not delete " << directory_to_delete->string() << std::endl; } void SharedLibrary :: Load( const std::filesystem::path & lib_name_, bool global ) { Unload(); lib_name = lib_name_; #ifdef WIN32 lib = LoadLibraryW(lib_name.wstring().c_str()); if (!lib) throw std::runtime_error(std::string("Could not load library ") + lib_name.string()); #else // WIN32 auto flags = RTLD_NOW; if (global) flags |= RTLD_GLOBAL; lib = dlopen(lib_name.c_str(), flags); if(lib == nullptr) throw std::runtime_error(dlerror()); #endif // WIN32 } void SharedLibrary :: Unload() { if(lib) { #ifdef WIN32 FreeLibrary((HMODULE)lib); #else // WIN32 int rc = dlclose(lib); if(rc != 0) std::cerr << "Failed to close library " << lib_name << std::endl; #endif // WIN32 } } void* SharedLibrary :: GetRawSymbol( std::string func_name ) { #ifdef WIN32 void* func = GetProcAddress((HMODULE)lib, func_name.c_str()); if(func == nullptr) throw std::runtime_error(std::string("Could not find function ") + func_name + " in library " + lib_name.string()); #else // WIN32 void* func = dlsym(lib, func_name.c_str()); if(func == nullptr) throw std::runtime_error(dlerror()); #endif // WIN32 return func; } void* GetRawSymbol( std::string func_name ) { void * func = nullptr; #ifdef WIN32 throw std::runtime_error("GetRawSymbol not implemented on WIN32"); #else // WIN32 func = dlsym(RTLD_DEFAULT, func_name.c_str()); if(func == nullptr) throw std::runtime_error(dlerror()); #endif // WIN32 return func; } } // namespace ngcore