Time.now (which returns the wall-clock time) as base-lines has a couple of issues which can result in unexpected behavior. This is caused by the fact that the wallclock time is subject to changes like inserted leap-seconds or time slewing to adjust the local time to a reference time.
If there is e.g. a leap second inserted during measurement, it will be off by a second. Similarly, depending on local system conditions, you might have to deal with daylight-saving-times, quicker or slower running clocks, or the clock even jumping back in time, resulting in a negative duration, and many other issues.
A solution to this issue is to use a different time of clock: a monotonic clock. This type of clock has different properties than the wall clock.
It increments monitonically, i.e. never goes back and increases at a constant rate. With that, it does not represent the wall-clock (i.e. the time you read from a clock on your wall) but a timestamp you can compare with a later timestamp to get a difference.
In Ruby, you can use such a timestamp with
Process.clock_gettime(Process::CLOCK_MONOTONIC) like follows:
t1 = Process.clock_gettime(Process::CLOCK_MONOTONIC)
# => 63988.576809828
sleep 1.5 # do some work
t2 = Process.clock_gettime(Process::CLOCK_MONOTONIC)
# => 63990.08359163
delta = t2 - t1
# => 1.5067818019961123
delta_in_milliseconds = delta * 1000
# => 1506.7818019961123
Process.clock_gettime method returns a timestamp as a float with fractional seconds. The actual number returned has no defined meaning (that you should rely on). However, you can be sure that the next call will return a larger number and by comparing the values, you can get the real time difference.
These attributes make the method a prime candidate for measuring time differences without seeing your program fail in the least opportune times (e.g. at midnight at New Year's Eve when there is another leap-second inserted).
Process::CLOCK_MONOTONIC constant used here is available on all modern Linux, BSD, and macOS systems as well as the Linux Subsystem for Windows. It is (to my knowledge) not yet available for "raw" Windows systems. There, you can use the
GetTickCount system call instead of
Process.clock_gettime which also returns a timer value in millisecond granularity on Windows.