Program Listing for File timeStamp.cpp¶
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/* timeStamp.cpp */
/*
* Copyright information and license terms for this software can be
* found in the file LICENSE that is included with the distribution
*/
#include <cstddef>
#include <cstdlib>
#include <cstddef>
#include <string>
#include <cstdio>
#include <epicsTime.h>
#define epicsExportSharedSymbols
#include <pv/noDefaultMethods.h>
#include <pv/pvType.h>
#include <pv/timeStamp.h>
namespace epics { namespace pvData {
const int32 milliSecPerSec = 1000;
const int32 microSecPerSec = 1000000;
const int32 nanoSecPerSec = 1000000000;
const int64 posixEpochAtEpicsEpoch = POSIX_TIME_AT_EPICS_EPOCH;
TimeStamp::TimeStamp(int64 secondsPastEpoch,int32 nanoseconds,int64 userTag)
: secondsPastEpoch(secondsPastEpoch),nanoseconds(nanoseconds),userTag(userTag)
{
normalize();
}
void TimeStamp::normalize()
{
if(nanoseconds>=0 && nanoseconds<nanoSecPerSec) return;
while(nanoseconds>=nanoSecPerSec) {
nanoseconds -= nanoSecPerSec;
secondsPastEpoch++;
}
while(nanoseconds<0) {
nanoseconds += nanoSecPerSec;
secondsPastEpoch--;
}
}
void TimeStamp::fromTime_t(const time_t & tt)
{
epicsTimeStamp epicsTime;
epicsTimeFromTime_t(&epicsTime,tt);
secondsPastEpoch = epicsTime.secPastEpoch + posixEpochAtEpicsEpoch;
nanoseconds = epicsTime.nsec;
}
void TimeStamp::toTime_t(time_t &tt) const
{
epicsTimeStamp epicsTime;
epicsTime.secPastEpoch = static_cast<epicsUInt32>(secondsPastEpoch-posixEpochAtEpicsEpoch);
epicsTime.nsec = nanoseconds;
epicsTimeToTime_t(&tt,&epicsTime);
}
void TimeStamp::put(int64 milliseconds)
{
secondsPastEpoch = milliseconds/1000;
nanoseconds = (milliseconds%1000)*1000000;
}
void TimeStamp::getCurrent()
{
epicsTimeStamp epicsTime;
epicsTimeGetCurrent(&epicsTime);
secondsPastEpoch = epicsTime.secPastEpoch;
secondsPastEpoch += posixEpochAtEpicsEpoch;
nanoseconds = epicsTime.nsec;
}
double TimeStamp::toSeconds() const
{
double value = static_cast<double>(secondsPastEpoch);
double nano = nanoseconds;
value += nano/1e9;
return value;
}
int64 TimeStamp::diffInt(TimeStamp const & left,TimeStamp const&right )
{
int64 sl = left.secondsPastEpoch;
int32 nl = left.nanoseconds;
int64 sr = right.secondsPastEpoch;
int32 nr = right.nanoseconds;
int64 sdiff = sl - sr;
sdiff *= nanoSecPerSec;
sdiff += nl - nr;
return sdiff;
}
bool TimeStamp::operator==(TimeStamp const &right) const
{
int64 sdiff = diffInt(*this,right);
if(sdiff==0) return true;
return false;
}
bool TimeStamp::operator!=(TimeStamp const &right) const
{
int64 sdiff = diffInt(*this,right);
if(sdiff!=0) return true;
return false;
}
bool TimeStamp::operator<=(TimeStamp const &right) const
{
int64 sdiff = diffInt(*this,right);
if(sdiff<=0) return true;
return false;
}
bool TimeStamp::operator< (TimeStamp const &right) const
{
int64 sdiff = diffInt(*this,right);
if(sdiff<0) return true;
return false;
}
bool TimeStamp::operator>=(TimeStamp const &right) const
{
int64 sdiff = diffInt(*this,right);
if(sdiff>=0) return true;
return false;
}
bool TimeStamp::operator>(TimeStamp const &right) const
{
int64 sdiff = diffInt(*this,right);
if(sdiff>0) return true;
return false;
}
double TimeStamp::diff(TimeStamp const & a,TimeStamp const & b)
{
double result = static_cast<double>(a.secondsPastEpoch - b.secondsPastEpoch);
result += (a.nanoseconds - b.nanoseconds)/1e9;
return result;
}
TimeStamp & TimeStamp::operator+=(int64 seconds)
{
secondsPastEpoch += seconds;
return *this;
}
TimeStamp & TimeStamp::operator-=(int64 seconds)
{
secondsPastEpoch -= seconds;
return *this;
}
TimeStamp & TimeStamp::operator+=(double seconds)
{
int64 secs = static_cast<int64>(seconds);
int64 nano = static_cast<int64>((seconds - secs)*1e9);
nanoseconds += static_cast<int32>(nano);
if(nanoseconds>nanoSecPerSec) {
nanoseconds -= nanoSecPerSec;
secondsPastEpoch += 1;
} else if(nanoseconds<-nanoSecPerSec) {
nanoseconds += -nanoSecPerSec;
secondsPastEpoch -= 1;
}
secondsPastEpoch += secs;
return *this;
}
TimeStamp & TimeStamp::operator-=(double seconds)
{
return operator+=(-seconds);
}
int64 TimeStamp::getMilliseconds()
{
return secondsPastEpoch*1000 + nanoseconds/1000000;
}
}}