opentime
1.0.0
تصميم متعدد الخيوط عبر الأنظمة الأساسية! OpenTime لـ C++، وقت سهل الاستخدام للغاية!
يقوم مشروع OpenLinyou بتصميم إطار عمل خادم متعدد المنصات. اكتب التعليمات البرمجية في VS أو XCode وقم بتشغيلها على Linux دون أي تغييرات، حتى على Android وiOS. OpenLinyou:https://github.com/openlinyou
يستخدم Linux وAndroid epoll، ويستخدم iOS وMac kqueue، بينما تستخدم الأنظمة الأخرى (Windows) التحديد، لذلك لا يمكن أن يتجاوز عدد io 64.
الرجاء تثبيت أداة cmake. باستخدام cmake، يمكنك إنشاء مشروع VS أو XCode وتجميعه وتشغيله على VS أو XCode. كود المصدر: https://github.com/openlinyou/opentime
# Clone the project
git clone https://github.com/openlinyou/opentime
cd ./opentime
# Create a build project directory
mkdir build
cd build
cmake ..
# If it's win32, opentime.sln will appear in this directory. Click it to start VS for coding and debugging.
make
./test
# include < assert.h >
# include < iostream >
# include < vector >
# include < map >
# include < time.h >
# include " opentime.h "
int main ()
{
OpenTime openTime;
std::cout << " Current Unixtime: " << openTime. unixtime () << std::endl;
std::cout << " Current Date: " << openTime. toString () << std::endl;
int64_t thatTime = 1676704738 ;
openTime = thatTime;
assert (openTime. unixtime () == thatTime);
assert (openTime. toString () == " 2023-02-18 15:18:58 " );
openTime = " 2023-02-18 15:18:58 " ;
assert (openTime. unixtime () == thatTime);
assert (openTime. wday () == 6 );
openTime += 3600 * 24 * 2 ;
assert (openTime. toString () == " 2023-02-20 15:18:58 " );
thatTime = openTime. unixtime ();
assert (openTime. toGMT () == " Mon, 20 Feb 2023 15:18:58 GMT " );
openTime. fromGMT ( " Mon, 20 Feb 2023 15:18:58 GMT " );
assert (openTime. unixtime () == thatTime);
int64_t inttime = 20230218133755 ;
openTime. fromIntTime (inttime);
std::string strTime = openTime. toString ();
assert (strTime == " 2023-02-18 13:37:55 " );
// 2023-02-18 00:00:00
openTime = " 2023-02-18 15:18:58 " ;
int64_t alignTime = openTime. alignDay ();
strTime = OpenTime::ToString (alignTime);
assert (strTime == " 2023-02-18 00:00:00 " );
thatTime = 1642490337 ;
alignTime = OpenTime::AlignDay (thatTime);
strTime = OpenTime::ToString (alignTime);
assert (strTime == " 2022-01-18 00:00:00 " );
std::map< int64_t , std::vector<std::string>> testDatas = {
{ 1676698675 , { " 2023-02-18 13:37:55 " , " " , " 2023-02-18 13:37:55 " }},
{ 669274675 , { " 1991-03-18 13:37:55 " , " %Y_%M_%D " , " 1991_03_18 " }},
{ 1292614675 , { " 2010-12-18 03:37:55 " , " %Y_%M_%D_%h_%m_%s " , " 2010_12_18_03_37_55 " }},
{ 77693875 , { " 1972-06-18 13:37:55 " , " date:%h:%m:%s %Y/%M/%D%d " , " date:13:37:55 1972/06/18%d " }},
};
for ( auto & iter : testDatas)
{
int64_t timeStamp = iter. first ;
openTime = timeStamp;
auto & datas = iter. second ;
assert (openTime. toString () == datas[ 0 ]);
std::string ret = openTime. toString (datas[ 1 ]);
assert (ret == datas[ 2 ]);
openTime. fromString (ret, datas[ 1 ]);
assert (openTime. unixtime () == timeStamp);
}
// sleep 1 second
OpenTime::Sleep ( 1000 );
int64_t timeStamp = OpenTime::Unixtime ();
std::cout << " Current timeStamp: " << OpenTime (timeStamp). toString () << std::endl;
int64_t milliTimeStamp = OpenTime::MilliUnixtime ();
std::cout << " Current milliTimeStamp: " << OpenTime (milliTimeStamp / 1000 ). toString (milliTimeStamp % 1000 ) << std::endl;
return 0 ;
}
