return !ec && new_write_time > max_sec - 1;
}
+bool TestSupportsMinTime() {
+ using namespace std::chrono;
+ using Lim = std::numeric_limits<std::time_t>;
+ auto min_sec = duration_cast<seconds>(file_time_type::min().time_since_epoch()).count();
+ if (min_sec < Lim::min()) return false;
+ std::error_code ec;
+ std::time_t old_write_time, new_write_time;
+ { // WARNING: Do not assert in this scope.
+ scoped_test_env env;
+ const path file = env.create_file("file", 42);
+ old_write_time = LastWriteTime(file);
+ file_time_type tp = file_time_type::min();
+ fs::last_write_time(file, tp, ec);
+ new_write_time = LastWriteTime(file);
+ }
+ return !ec && new_write_time < min_sec + 1;
+}
+
#if defined(__clang__)
#pragma clang diagnostic pop
#endif
static const bool SupportsNegativeTimes = TestSupportsNegativeTimes();
static const bool SupportsMaxTime = TestSupportsMaxTime();
+static const bool SupportsMinTime = TestSupportsMinTime();
} // end namespace
// (B) 'tp' is non-negative or the filesystem supports negative times.
// (C) 'tp' is not 'file_time_type::max()' or the filesystem supports the max
// value.
+// (D) 'tp' is not 'file_time_type::min()' or the filesystem supports the min
+// value.
inline bool TimeIsRepresentableByFilesystem(file_time_type tp) {
using namespace std::chrono;
using Lim = std::numeric_limits<std::time_t>;
if (sec < Lim::min() || sec > Lim::max()) return false;
else if (microsec < 0 && !SupportsNegativeTimes) return false;
else if (tp == file_time_type::max() && !SupportsMaxTime) return false;
+ else if (tp == file_time_type::min() && !SupportsMinTime) return false;
return true;
}
TEST_CHECK(!ec);
TEST_CHECK(tt >= new_time);
TEST_CHECK(tt < new_time + Sec(1));
- }
- ec = GetTestEC();
- last_write_time(p, Clock::now());
+ ec = GetTestEC();
+ last_write_time(p, Clock::now());
- new_time = file_time_type::min() + MicroSec(1);
+ new_time = file_time_type::min() + MicroSec(1);
- last_write_time(p, new_time, ec);
- tt = last_write_time(p);
+ last_write_time(p, new_time, ec);
+ tt = last_write_time(p);
- if (TimeIsRepresentableByFilesystem(new_time)) {
- TEST_CHECK(!ec);
- TEST_CHECK(tt >= new_time);
- TEST_CHECK(tt < new_time + Sec(1));
+ if (TimeIsRepresentableByFilesystem(new_time)) {
+ TEST_CHECK(!ec);
+ TEST_CHECK(tt >= new_time);
+ TEST_CHECK(tt < new_time + Sec(1));
+ }
}
}