bsnes/nall/chrono.hpp

135 lines
4.6 KiB
C++

#pragma once
#include <nall/function.hpp>
#include <nall/string.hpp>
namespace nall::chrono {
//passage of time functions (from unknown epoch)
inline auto nanosecond() -> uint64_t {
timespec tv;
clock_gettime(CLOCK_MONOTONIC, &tv);
return tv.tv_sec * 1'000'000'000 + tv.tv_nsec;
}
inline auto microsecond() -> uint64_t { return nanosecond() / 1'000; }
inline auto millisecond() -> uint64_t { return nanosecond() / 1'000'000; }
inline auto second() -> uint64_t { return nanosecond() / 1'000'000'000; }
inline auto benchmark(const function<void ()>& f, uint64_t times = 1) -> void {
auto start = nanosecond();
while(times--) f();
auto end = nanosecond();
print("[chrono::benchmark] ", (double)(end - start) / 1'000'000'000.0, "s\n");
}
//exact date/time functions (from system epoch)
struct timeinfo {
timeinfo(
uint year = 0, uint month = 0, uint day = 0,
uint hour = 0, uint minute = 0, uint second = 0, uint weekday = 0
) : year(year), month(month), day(day),
hour(hour), minute(minute), second(second), weekday(weekday) {
}
inline explicit operator bool() const { return month; }
uint year; //...
uint month; //1 - 12
uint day; //1 - 31
uint hour; //0 - 23
uint minute; //0 - 59
uint second; //0 - 60
uint weekday; //0 - 6
};
inline auto timestamp() -> uint64_t {
return ::time(nullptr);
}
namespace utc {
inline auto timeinfo(uint64_t time = 0) -> chrono::timeinfo {
auto stamp = time ? (time_t)time : (time_t)timestamp();
auto info = gmtime(&stamp);
return {
(uint)info->tm_year + 1900,
(uint)info->tm_mon + 1,
(uint)info->tm_mday,
(uint)info->tm_hour,
(uint)info->tm_min,
(uint)info->tm_sec,
(uint)info->tm_wday
};
}
inline auto year(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).year, 4, '0'); }
inline auto month(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).month, 2, '0'); }
inline auto day(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).day, 2, '0'); }
inline auto hour(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).hour, 2, '0'); }
inline auto minute(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).minute, 2, '0'); }
inline auto second(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).second, 2, '0'); }
inline auto date(uint64_t timestamp = 0) -> string {
auto t = timeinfo(timestamp);
return {pad(t.year, 4, '0'), "-", pad(t.month, 2, '0'), "-", pad(t.day, 2, '0')};
}
inline auto time(uint64_t timestamp = 0) -> string {
auto t = timeinfo(timestamp);
return {pad(t.hour, 2, '0'), ":", pad(t.minute, 2, '0'), ":", pad(t.second, 2, '0')};
}
inline auto datetime(uint64_t timestamp = 0) -> string {
auto t = timeinfo(timestamp);
return {
pad(t.year, 4, '0'), "-", pad(t.month, 2, '0'), "-", pad(t.day, 2, '0'), " ",
pad(t.hour, 2, '0'), ":", pad(t.minute, 2, '0'), ":", pad(t.second, 2, '0')
};
}
}
namespace local {
inline auto timeinfo(uint64_t time = 0) -> chrono::timeinfo {
auto stamp = time ? (time_t)time : (time_t)timestamp();
auto info = localtime(&stamp);
return {
(uint)info->tm_year + 1900,
(uint)info->tm_mon + 1,
(uint)info->tm_mday,
(uint)info->tm_hour,
(uint)info->tm_min,
(uint)info->tm_sec,
(uint)info->tm_wday
};
}
inline auto year(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).year, 4, '0'); }
inline auto month(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).month, 2, '0'); }
inline auto day(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).day, 2, '0'); }
inline auto hour(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).hour, 2, '0'); }
inline auto minute(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).minute, 2, '0'); }
inline auto second(uint64_t timestamp = 0) -> string { return pad(timeinfo(timestamp).second, 2, '0'); }
inline auto date(uint64_t timestamp = 0) -> string {
auto t = timeinfo(timestamp);
return {pad(t.year, 4, '0'), "-", pad(t.month, 2, '0'), "-", pad(t.day, 2, '0')};
}
inline auto time(uint64_t timestamp = 0) -> string {
auto t = timeinfo(timestamp);
return {pad(t.hour, 2, '0'), ":", pad(t.minute, 2, '0'), ":", pad(t.second, 2, '0')};
}
inline auto datetime(uint64_t timestamp = 0) -> string {
auto t = timeinfo(timestamp);
return {
pad(t.year, 4, '0'), "-", pad(t.month, 2, '0'), "-", pad(t.day, 2, '0'), " ",
pad(t.hour, 2, '0'), ":", pad(t.minute, 2, '0'), ":", pad(t.second, 2, '0')
};
}
}
}