.. highlight:: c PyTime C API ============ .. versionadded:: 3.13 The clock C API provides access to system clocks. It is similar to the Python :mod:`time` module. For C API related to the :mod:`datetime` module, see :ref:`datetimeobjects`. Types ----- .. c:type:: PyTime_t A timestamp or duration in nanoseconds, represented as a signed 64-bit integer. The reference point for timestamps depends on the clock used. For example, :c:func:`PyTime_Time` returns timestamps relative to the UNIX epoch. The supported range is around [-292.3 years; +292.3 years]. Using the Unix epoch (January 1st, 1970) as reference, the supported date range is around [1677-09-21; 2262-04-11]. The exact limits are exposed as constants: .. c:var:: PyTime_t PyTime_MIN Minimum value of :c:type:`PyTime_t`. .. c:var:: PyTime_t PyTime_MAX Maximum value of :c:type:`PyTime_t`. Clock Functions --------------- The following functions take a pointer to a :c:expr:`PyTime_t` that they set to the value of a particular clock. Details of each clock are given in the documentation of the corresponding Python function. The functions return ``0`` on success, or ``-1`` (with an exception set) on failure. On integer overflow, they set the :c:data:`PyExc_OverflowError` exception and set ``*result`` to the value clamped to the ``[PyTime_MIN; PyTime_MAX]`` range. (On current systems, integer overflows are likely caused by misconfigured system time.) As any other C API (unless otherwise specified), the functions must be called with the :term:`GIL` held. .. c:function:: int PyTime_Monotonic(PyTime_t *result) Read the monotonic clock. See :func:`time.monotonic` for important details on this clock. .. c:function:: int PyTime_PerfCounter(PyTime_t *result) Read the performance counter. See :func:`time.perf_counter` for important details on this clock. .. c:function:: int PyTime_Time(PyTime_t *result) Read the “wall clock” time. See :func:`time.time` for details important on this clock. Raw Clock Functions ------------------- Similar to clock functions, but don't set an exception on error and don't require the caller to hold the GIL. On success, the functions return ``0``. On failure, they set ``*result`` to ``0`` and return ``-1``, *without* setting an exception. To get the cause of the error, acquire the GIL and call the regular (non-``Raw``) function. Note that the regular function may succeed after the ``Raw`` one failed. .. c:function:: int PyTime_MonotonicRaw(PyTime_t *result) Similar to :c:func:`PyTime_Monotonic`, but don't set an exception on error and don't require holding the GIL. .. c:function:: int PyTime_PerfCounterRaw(PyTime_t *result) Similar to :c:func:`PyTime_PerfCounter`, but don't set an exception on error and don't require holding the GIL. .. c:function:: int PyTime_TimeRaw(PyTime_t *result) Similar to :c:func:`PyTime_Time`, but don't set an exception on error and don't require holding the GIL. Conversion functions -------------------- .. c:function:: double PyTime_AsSecondsDouble(PyTime_t t) Convert a timestamp to a number of seconds as a C :c:expr:`double`. The function cannot fail, but note that :c:expr:`double` has limited accuracy for large values.