//===----------------------------------------------------------------------===//// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===//// #ifndef FILESYSTEM_TIME_HELPER_H #define FILESYSTEM_TIME_HELPER_H #include "experimental/__config" #include "chrono" #include "cstdlib" #include "climits" #include <unistd.h> #include <sys/stat.h> #if !defined(UTIME_OMIT) #include <sys/time.h> // for ::utimes as used in __last_write_time #endif _LIBCPP_BEGIN_NAMESPACE_EXPERIMENTAL_FILESYSTEM namespace time_detail { namespace { using namespace chrono; template <class FileTimeT, bool IsFloat = is_floating_point<typename FileTimeT::rep>::value> struct fs_time_util_base { static constexpr auto max_seconds = duration_cast<seconds>(FileTimeT::duration::max()).count(); static constexpr auto max_nsec = duration_cast<nanoseconds>(FileTimeT::duration::max() - seconds(max_seconds)) .count(); static constexpr auto min_seconds = duration_cast<seconds>(FileTimeT::duration::min()).count(); static constexpr auto min_nsec_timespec = duration_cast<nanoseconds>( (FileTimeT::duration::min() - seconds(min_seconds)) + seconds(1)) .count(); // Static assert that these values properly round trip. static_assert((seconds(min_seconds) + duration_cast<microseconds>(nanoseconds(min_nsec_timespec))) - duration_cast<microseconds>(seconds(1)) == FileTimeT::duration::min(), ""); }; template <class FileTimeT> struct fs_time_util_base<FileTimeT, true> { static const long long max_seconds; static const long long max_nsec; static const long long min_seconds; static const long long min_nsec_timespec; }; template <class FileTimeT> const long long fs_time_util_base<FileTimeT, true>::max_seconds = duration_cast<seconds>(FileTimeT::duration::max()).count(); template <class FileTimeT> const long long fs_time_util_base<FileTimeT, true>::max_nsec = duration_cast<nanoseconds>(FileTimeT::duration::max() - seconds(max_seconds)) .count(); template <class FileTimeT> const long long fs_time_util_base<FileTimeT, true>::min_seconds = duration_cast<seconds>(FileTimeT::duration::min()).count(); template <class FileTimeT> const long long fs_time_util_base<FileTimeT, true>::min_nsec_timespec = duration_cast<nanoseconds>((FileTimeT::duration::min() - seconds(min_seconds)) + seconds(1)) .count(); template <class FileTimeT, class TimeT, class TimeSpecT> struct fs_time_util : fs_time_util_base<FileTimeT> { using Base = fs_time_util_base<FileTimeT>; using Base::max_nsec; using Base::max_seconds; using Base::min_nsec_timespec; using Base::min_seconds; public: template <class CType, class ChronoType> static bool checked_set(CType* out, ChronoType time) { using Lim = numeric_limits<CType>; if (time > Lim::max() || time < Lim::min()) return false; *out = static_cast<CType>(time); return true; } static _LIBCPP_CONSTEXPR_AFTER_CXX11 bool is_representable(TimeSpecT tm) { if (tm.tv_sec >= 0) { return (tm.tv_sec < max_seconds) || (tm.tv_sec == max_seconds && tm.tv_nsec <= max_nsec); } else if (tm.tv_sec == (min_seconds - 1)) { return tm.tv_nsec >= min_nsec_timespec; } else { return (tm.tv_sec >= min_seconds); } } static _LIBCPP_CONSTEXPR_AFTER_CXX11 bool is_representable(FileTimeT tm) { auto secs = duration_cast<seconds>(tm.time_since_epoch()); auto nsecs = duration_cast<nanoseconds>(tm.time_since_epoch() - secs); if (nsecs.count() < 0) { secs = secs + seconds(1); nsecs = nsecs + seconds(1); } using TLim = numeric_limits<TimeT>; if (secs.count() >= 0) return secs.count() <= TLim::max(); return secs.count() >= TLim::min(); } static _LIBCPP_CONSTEXPR_AFTER_CXX11 FileTimeT convert_timespec(TimeSpecT tm) { auto adj_msec = duration_cast<microseconds>(nanoseconds(tm.tv_nsec)); if (tm.tv_sec >= 0) { auto Dur = seconds(tm.tv_sec) + microseconds(adj_msec); return FileTimeT(Dur); } else if (duration_cast<microseconds>(nanoseconds(tm.tv_nsec)).count() == 0) { return FileTimeT(seconds(tm.tv_sec)); } else { // tm.tv_sec < 0 auto adj_subsec = duration_cast<microseconds>(seconds(1) - nanoseconds(tm.tv_nsec)); auto Dur = seconds(tm.tv_sec + 1) - adj_subsec; return FileTimeT(Dur); } } template <class SubSecDurT, class SubSecT> static bool set_times_checked(TimeT* sec_out, SubSecT* subsec_out, FileTimeT tp) { using namespace chrono; auto dur = tp.time_since_epoch(); auto sec_dur = duration_cast<seconds>(dur); auto subsec_dur = duration_cast<SubSecDurT>(dur - sec_dur); // The tv_nsec and tv_usec fields must not be negative so adjust accordingly if (subsec_dur.count() < 0) { if (sec_dur.count() > min_seconds) { sec_dur -= seconds(1); subsec_dur += seconds(1); } else { subsec_dur = SubSecDurT::zero(); } } return checked_set(sec_out, sec_dur.count()) && checked_set(subsec_out, subsec_dur.count()); } }; } // end namespace } // end namespace time_detail using time_detail::fs_time_util; _LIBCPP_END_NAMESPACE_EXPERIMENTAL_FILESYSTEM #endif // FILESYSTEM_TIME_HELPER_H