diff --git a/pep-0418.txt b/pep-0418.txt index 910975ffe..bb6973eb6 100644 --- a/pep-0418.txt +++ b/pep-0418.txt @@ -264,23 +264,19 @@ Pseudo-code [#pseudo]_:: def time(): if hasattr(time, "clock_gettime"): try: - # resolution = 1 nanosecond return time.clock_gettime(time.CLOCK_REALTIME) except OSError: # CLOCK_REALTIME is not supported (unlikely) pass if hasattr(_time, "gettimeofday"): try: - # resolution = 1 microsecond return _time.gettimeofday() except OSError: # gettimeofday() should not fail pass if hasattr(_time, "ftime"): - # resolution = 1 millisecond return _time.ftime() else: - # resolution = 1 second return _time.time() @@ -722,9 +718,9 @@ CLOCK_MONOTONIC OpenBSD 5.0 10 ms GetTickCount Windows Seven 15.6 ms ========================= ================ =============== -For CLOCK_MONOTONIC and CLOCK_MONOTONIC_RAW, the precision of this -table is the result of ``clock_getres()``. It looks like Linux does -not implement ``clock_getres()`` and always returns 1 nanosecond. +For CLOCK_xxx clocks, the precision of this table is the result of +``clock_getres()``. It looks like Linux does not implement ``clock_getres()`` +and always returns 1 nanosecond. mach_absolute_time ^^^^^^^^^^^^^^^^^^ @@ -743,8 +739,6 @@ mach_absolute_time() stops during a sleep on a PowerPC CPU, but not on an Intel CPU: `Different behaviour of mach_absolute_time() on i386/ppc `_. -mach_absolute_time() has a resolution of 1 nanosecond. - CLOCK_MONOTONIC, CLOCK_MONOTONIC_RAW, CLOCK_BOOTTIME ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ @@ -792,9 +786,6 @@ CLOCK_MONOTONIC stops while the machine is suspended. clock, even if the standard C library supports it. For example, CLOCK_MONOTONIC_RAW requires a kernel version 2.6.28 or later. -``clock_getres()`` gives the clock resolution. It is 1 nanosecond on -Linux. - .. note:: ``clock_gettime()`` requires to link the program against the rt @@ -881,15 +872,14 @@ includes time the system spends in sleep or hibernation. GetTickCount64() was added to Windows Vista and Windows Server 2008. -The clock resolution is 1 millisecond. Its precision is usually -around 15 ms. It is possible to improve the precision using the -`undocumented NtSetTimerResolution() function +It is possible to improve the precision using the `undocumented +NtSetTimerResolution() function `_. -There are applications using this undocumented function, example: -`Timer Resolution `_. +There are applications using this undocumented function, example: `Timer +Resolution `_. WaitForSingleObject() uses the same timer as GetTickCount() with the -same resolution. +same precision. GetTickCount() has an precision of 55 ms on Windows 9x. @@ -990,16 +980,9 @@ and always returns 1 nanosecond. Windows: GetSystemTimeAsFileTime ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ -The system time can be read using GetSystemTimeAsFileTime(), ftime() -and time(). - -The system time resolution can be read using -GetSystemTimeAdjustment(). The precision is usually between 1 -millisecond and 15 milliseconds. Resolution: - -* GetSystemTimeAsFileTime(): 100 nanoseconds -* ftime(): 1 millisecond -* time(): 1 second +The system time can be read using GetSystemTimeAsFileTime(), ftime() and +time(). The precision of the system clock can be read using +GetSystemTimeAdjustment(). Read the `GetSystemTimeAsFileTime() documentation `_. @@ -1012,13 +995,6 @@ System time on UNIX gettimeofday(), ftime(), time() and clock_gettime(CLOCK_REALTIME) return the system clock. -Resolution: - -* clock_gettime(): clock_getres(CLOCK_REALTIME) -* gettimeofday(): 1 microsecond -* ftime(): 1 millisecond -* time(): 1 second - The system time can be set using settimeofday() or clock_settime(CLOCK_REALTIME). @@ -1071,7 +1047,8 @@ GetSystemTimeAdjustment(). Functions ^^^^^^^^^ -* Windows: GetProcessTimes() +* Windows: GetProcessTimes(). The precision can be read using + GetSystemTimeAdjustment(). * clock_gettime(CLOCK_PROCESS_CPUTIME_ID): High-resolution per-process timer from the CPU. * clock(): @@ -1085,13 +1062,6 @@ Functions * times() * getrusage(): ru_utime and ru_stime fields -Resolution: - -* clock() rate is CLOCKS_PER_SEC. It was called CLK_TCK in Microsoft - C before 6.0. -* The clock resolution can be read using clock_getres(). -* GetProcessTimes(): call GetSystemTimeAdjustment(). - Python source code includes a portable library to get the process time (CPU time): `Tools/pybench/systimes.py `_. @@ -1128,15 +1098,11 @@ the precision is read using GetSystemTimeAdjustment(). Functions ^^^^^^^^^ -* Windows: GetThreadTimes() +* Windows: GetThreadTimes(). The precision can be read using + GetSystemTimeAdjustment(). * clock_gettime(CLOCK_THREAD_CPUTIME_ID): Thread-specific CPU-time clock. -Resolution: - -* CLOCK_THREAD_CPUTIME_ID: call clock_getres(). -* GetThreadTimes(): call GetSystemTimeAdjustment() - See also pthread_getcpuclockid(). @@ -1273,10 +1239,10 @@ Other functions * sem_timedwait(): "If the Timers option is supported, the timeout shall be based on the CLOCK_REALTIME clock. If the Timers option is not supported, the timeout shall be based on the system clock as - returned by the time() function. The resolution of the timeout - shall be the resolution of the clock on which it is based." + returned by the time() function. The precision of the timeout + shall be the precision of the clock on which it is based." * WaitForSingleObject(): use the same timer than GetTickCount() with - the same resolution. + the same precision. Alternatives: API design @@ -1336,7 +1302,7 @@ One function choosing the clock from a list of constraints * time.MONOTONIC: clock cannot go backward * time.STEADY: clock rate is steady and the clock is not adjusted -* time.HIGHRES: clock with the highest resolutions +* time.HIGHRES: clock with the highest precision time.get_clock() returns None if the clock is found and so calls can be chained using the or operator. Example::