问题
I have a 32 bit Linux system in which I have to record data that is timestamped with a UINT32 second offset from an epoch of 1901-01-01 00:00:00.
Calculating the timestamp is ok for me as I can use the 64 bit ticks()
counter and ticks_per_second()
functions to generate the seconds since epoch as follows (I only require second level resolution)
const ptime ptime_origin(time_from_string("1901-01-01 00:00:00"));
time_duration my_utc = microsec_clock::universal_time() - ptime_origin;
boost::int64_t tick_per_sec = my_utc.ticks_per_second();
boost::int64_t tick_count = my_utc.ticks();
boost::int64_t sec_since_epoch = tick_count/tick_per_sec;
This works for me since I know that as an unsigned integer, the seconds count will not exceed the maximum UINT32 value (well not for many years anyway).
The problem I have is that my application can receive a modbus message containing a UINT32 value for which I have to set the hardware and system clock with an ioctl
call using RTC_SET_TIME
. This UINT32 is again the offset in seconds since my epoch 1901-01-01 00:00:00.
My problem now is that I have no way to create a ptime
object using 64 bit integers - the ticks
part of the time_duration
objects is private and I am restricted to using long
which on my 32 bit system is just a 4-byte signed integer not large enough to store the seconds offset from my epoch.
I have no control over the value of the epoch and so I am really stumped as to how I can create my required boost::posix_time::ptime
object from the data I have.
I can probably obtain a dirty solution by calculating hard second counts to particular time intervals and using an additional epoch to make a bridge to allow this but I was wondering if there is something in the boost
code that will allow me to solve the problem entirely using the boost datetime library.
I have read all the documentation I can find but I cannot see any obvious way to do this.
EDIT: I found this related question Convert int64_t to time_duration but the accepted answer there does NOT work for my epoch
回答1:
You could apply time_durations in the maximum allowable increments (which is std::numeric_limits<long>::max()
) since the total_seconds
field is limited to long
(signed).
Note: I worded it as int32_t
below so that it will still work correctly if compiled on a 64-bit platform.
Here's a small demonstration:
#include "boost/date_time.hpp"
#include <iostream>
using namespace boost::gregorian;
using namespace boost::posix_time;
int main()
{
uint64_t offset = 113ul*365ul*24ul*60ul*60ul; // 113 years give or take some leap seconds/days etc.?
static const ptime time_t_epoch(date(1901,1,1));
static const uint32_t max_long = std::numeric_limits<int32_t>::max();
std::cout << "epoch: " << time_t_epoch << "\n";
ptime accum = time_t_epoch;
while (offset > max_long)
{
accum += seconds(max_long);
offset -= max_long;
std::cout << "accumulating: " << accum << "\n";
}
accum += seconds(offset);
std::cout << "final: " << accum << "\n";
}
Prints:
epoch: 1901-Jan-01 00:00:00
accumulating: 1969-Jan-19 03:14:07
final: 2013-Dec-04 00:00:00
See it Live on Coliru
回答2:
Although boost::posix_time::seconds
cannot be used if the seconds represent a number greater than 32 bits (as of Oct 2014), it turns out that boost::posix_time::milliseconds
can easily be used (without workarounds), as follows:
inline std::string convertMsSinceEpochToString(std::int64_t const ms)
{
boost::posix_time::ptime time_epoch(boost::gregorian::date(1970, 1, 1));
boost::posix_time::ptime t = time_epoch + boost::posix_time::milliseconds(ms);
return boost::posix_time::to_simple_string(t);
}
So, just convert your 64-bit seconds to (64-bit) milliseconds, and you're good to go!
Note Be /very/ aware of compiler dependent behaviour with the capacity of builting integral types:
uint64_t offset = 113ul*365ul*24ul*60ul*60ul*1000ul; // 113 years give or take some leap seconds/days etc.?
would work on GCC or Clang, but it would simply overflow the calculations in MSVC2013. You'd need to explicitly coerce the calulation to 64 bits:
uint64_t offset = uint64_t(113ul)*365*24*60*60*1000;
来源:https://stackoverflow.com/questions/19379077/creating-a-boostposix-timeptime-object-from-a-64-bit-integer-second-count